importance of engineering assignment

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Types of writing assignments for engineering courses

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Writing assignments in engineering courses can take many forms, ranging from a couple of sentences of in-class writing to formal reports.

Conceptual Writing

Ask students to write about technical definitions, assumptions, or terminology. They can rephrase easily found definitions and assumptions in their own words, which allows them to articulate basic knowledge that they have learned in the course.

Explain-a-Problem

Take an existing “calculator problem” and have students explain their answers. The format of their explanations can range from a few clarifying sentences to a solution manual-type description. This is the simplest type of writing question to apply, and it dovetails perfectly with already-developed homework questions.

How Stuff Works

Ask students to use newly-learned concepts and terminology in an explanation of how something works in the real world. This question forces students to apply new concepts and equations to an actual situation.

Real-world Example

Advise students to seek out and explain a real-world example of a concept in action. This type of writing prompt is great at promoting student appreciation for the real-world importance of what they are learning.

Design-a-Problem

Assign students to design their own homework problem and write a detailed solution to that problem. This approach lets students be creative and encourages deep understanding of technical concepts and procedures.

Open-ended Design

Challenge students to design a device or solution associated with a stated design objective. The writing component of the assignment lies in the explanation of the design. This writing task allows students to create their own design and further engage with technical concepts and procedures as they explain how their design works.

Top 10 Tips on How to Write Engineering Assignments

Engineering assignments can be challenging, especially for students who are new to the field or need help with academic writing. However, with the right approach and some helpful tips, writing engineering assignments can become a manageable task. In this blog post, we will provide the top 10 tips on how to write engineering assignments. These tips will cover various aspects of the writing process, including choosing a topic, conducting research, structuring your assignment, and writing effective sentences and paragraphs. Whether you are an undergraduate or postgraduate student, these tips will help you improve your engineering writing skills and achieve better grades on your assignments.

Tips on How to Write Engineering Assignments

Table of Contents

Here are some tips on how to write engineering assignments:

1) Engineering Assignments Should Be To The Point

The first tip for writing engineering assignments is to be concise and to the point. Engineering is a technical field that requires clear and precise communication. Therefore, it is essential to avoid using unnecessary words or overly complicated language that can hide your message. Instead, focus on delivering your ideas and arguments in a clear and straightforward manner. This will not only help you convey your message effectively but also demonstrate your understanding of the topic to your instructor.

2) Make Brief Intro

When you are writing an assignment you have to give a brief introduction of the topics that you are writing. You have to know that the subjects in engineering are technical so, you should know how to write engineering assignments. Give basic details of the topic that the person can know what you are writing on a topic. a brief intro also examines what you are talking about in all assignments therefore if it will be creative, brief, and informative, the more it will get value. This is one of the ways on how to write engineering assignments.

3) Do the Vast Research

When you are writing any topic, you have a vast knowledge of that topic. For that, you have to do vast research and know how to write an engineering assignment. Because the topics in engineering are quite technical. For making an easy task you can do one more thing during research or collecting information make some notes and note down every major point so that if you start writing the final assignments you shouldn’t be worried or any confusion about the topic. Thus this also helps you on how to write engineering assignments.

4) Add Some Creativity

You know how to write engineering assignments, for that you have to add some creativity in your assignments. Like, use the scales for majoring the diagrams and make some projects in that creative way so that anyone can be impressed by your work. So, add some creativity while doing the engineering assignments. Creativity not should only in the words but also in the style you are making.

5) Take Ideas from Seniors Assignments

When you know how to write engineering assignments but still you have to take ideas from your senior’s assignments. The way they present their assignments in a detailed way and what they write in the assignment can give more help to you when you start writing your own assignment. This will give you an idea of where to start the project or assignment. They have spent lot of energy, time, and creativity. So it would be easier for you to get the best idea to make your assignments more insightful, productive, and valuable.

6) Clear & Easy To Understand

If a person or the student has an interest in the engineering topics and knows how to write the engineering assignment. Then it will not create hurdles in his work and he/she can easily write anything about the assignment. But the projects or engineering should be clear to them and they have basic knowledge of the topics so that they can easily work on their projects. The more your assignments will be clear and easy for the examiner to understand, the more it will create a positive impact on the examiner. Using many hard words that would not be understood by everyone makes a little negative impact. That’s why the language should be clear and easy to understand. This is the way on how to write engineering assignments.

7) Give Examples To Make Point Clear

Writing an engineering assignment is not easy, if you don’t use the perfect examples then the assignments have no value and not worth making. You know how to write engineering assignments then it will be only possible if you give the proper examples to make it clear and give the best use of projects while working on the assignments. Giving examples shows the mindset that the students are having practical knowledge about the subject or not. This is also showing that students truly want to make clear to the examiner about assignments and it would be easy for everyone to understand through examples.

8) Add Some Infographics Prints To Make Assignments Interesting

If you start using infographics it would make more effective impact on the examiner. Infographics are something the right way in which you can discuss many things under fewer words.also, it makes your assignments more creative and truthful. Using only the textual part is sounds a little boring but if you use some infographics print in your engineering assignments then it would be an advanced advantage for you. This is how to write engineering assignments.

9) Add Your Research Study Experience

During making engineering assignments you must have to add your research study experience. How you did your research, how many research methods you have applied to make those assignments, and how many difficulties you faced during making assignments. You should also share some Do’s and Dont’s, this is the way to build an examiner’s trust in your assignments. This is one of the best tips on how to write engineering assignments.

10) Include Major Points During Finish The Assignment

In the end when you are going to finish your assignment make sure you should sum up everything that you have discussed in a brief point so that it will recall in the examiner mind what he/she already has studied. Recall must be there to understand everything in a short period of time. This is how you can make your assignments. This is the fines way on how to write engineering assignments.

How To Choose A Topic For Your Engineering Assignment In 2023

Here we will discuss some steps to choose a topic for your engineering assignment:

1. Choose According To Interest

Pick a topic that you enjoy and find interesting in engineering. When you like what you’re studying, it keeps you excited and focused.

2. Think About What’s Important Now

Look for topics that matter in 2023 and are relevant to what’s happening in the engineering world. Pay attention to things that can make a difference.

3. Don’t Go Too Big Topic

Select a topic that’s not too wide or general. It should be specific enough so you can explore it well and not get lost in too much information.

4. Find Enough Information

Ensure enough books, articles, and other materials are available for your topic. You don’t want to struggle to find information.

5. Ask Your Teachers

Check if your teachers know about your chosen topic. They can give you advice and suggestions.

6. Be Different

Try to find a topic that’s not commonly chosen by others. Being unique can make your assignment more interesting.

7. Make Sure It’s Doable

Think about the time and resources you have for the assignment. Pick a topic that you can realistically finish on time.

13+ Engineering Assignment Topics For Students In 2023

Here we will discuss 13+ engineering assignments topics for students in 2023:

• Renewable Energy Technologies
• Sustainable Building Design
• Artificial Intelligence in Manufacturing
• Internet of Things (IoT) for Smart Cities
• Autonomous Vehicles and Self-Driving Cars
• Biomedical Engineering and Prosthetics
• Green Engineering Solutions for Pollution Control
• Advanced Materials for Aerospace Applications
• 3D Printing in Engineering
•  Cybersecurity in Critical Infrastructure
•  Water Resource Management and Conservation
•  Robotics and Automation in Industry
•  Waste Management and Recycling Technologies
•  Augmented Reality and Virtual Reality Applications in Engineering
•  Nanotechnology for Electronics and Energy Storage

Here you know the benefits of taking Engineering Assignment Help. If your question was how to score best with engineering assignment help then online service providers are the best solution. They have a solution for almost every problem regarding your assignments and homework. These service providers have years of experienced experts who have immense knowledge of engineering assignments.

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Hands-on Activity Solving Everyday Problems Using the Engineering Design Cycle

Grade Level: 7 (6-8)

(two 60-minutes class periods)

Additional materials are required if the optional design/build activity extension is conducted.

Group Size: 4

Activity Dependency: None

Subject Areas: Science and Technology

NGSS Performance Expectations:

TE Newsletter

Engineering connection, learning objectives, materials list, worksheets and attachments, introduction/motivation, vocabulary/definitions, investigating questions, activity extensions, user comments & tips.

This activity introduces students to the steps of the engineering design process. Engineers use the engineering design process when brainstorming solutions to real-life problems; they develop these solutions by testing and redesigning prototypes that work within given constraints. For example, biomedical engineers who design new pacemakers are challenged to create devices that help to control the heart while being small enough to enable patients to move around in their daily lives.

After this activity, students should be able to:

• Explain the stages/steps of the engineering design process .
• Identify the engineering design process steps in a case study of a design/build example solution.
• Determine whether a design solution meets the project criteria and constraints.
• Think of daily life situations/problems that could be improved.
• Apply the engineering design process steps to develop their own innovations to real-life problems.
• Apply the engineering design cycle steps to future engineering assignments.

Educational Standards Each TeachEngineering lesson or activity is correlated to one or more K-12 science, technology, engineering or math (STEM) educational standards. All 100,000+ K-12 STEM standards covered in TeachEngineering are collected, maintained and packaged by the Achievement Standards Network (ASN) , a project of D2L (www.achievementstandards.org). In the ASN, standards are hierarchically structured: first by source; e.g. , by state; within source by type; e.g. , science or mathematics; within type by subtype, then by grade, etc .

Ngss: next generation science standards - science, international technology and engineering educators association - technology.

View aligned curriculum

Do you agree with this alignment? Thanks for your feedback!

State Standards

Massachusetts - science.

Each group needs:

• Marisol Case Study , one per student
• Group Leader Discussion Sheet , one per group

To share with the entire class:

• computer/projector setup to show the class the Introduction to the Engineering Design Cycle Presentation , a Microsoft® PowerPoint® file
• paper and pencils
• (optional) an assortment of scrap materials such as fabric, super glue, wood, paper, plastic, etc., provided by the teacher and/or contributed by students, to conduct the hands-on design/build extension activity

(Have the 19-slide Introduction to the Engineering Design Cycle Presentation , a PowerPoint® file, ready to show the class.)

Have you ever experienced a problem and wanted a solution to it? Maybe it was a broken backpack strap, a bookshelf that just kept falling over, or stuff spilling out of your closet? (Let students share some simple problems with the class). With a little bit of creativity and a good understanding of the engineering design process, you can find the solutions to many of these problems yourself!

But what is the engineering design process? (Listen to some student ideas shared with the class.) The engineering design process, or cycle, is a series of steps used by engineers to guide them as they solve problems.

(Show students the slide presentation. Refer to the notes under each slide for a suggested script and comments. The slides introduce the main steps of the engineering design process, and walk through a classroom problem—a teacher’s disorganized desk that is preventing timely return of graded papers—and how students devise a solution. It also describes the work of famous people—Katherine Johnson, Lee Anne Walters, Marc Edwards, James E. West and Jorge Odón—to illustrate successful examples of using the steps of the engineering design process.)

Now that we’ve explore the engineering design process, let’s see if we can solve a real-world problem. Marisol is a high-school student who is very excited to have their own locker. They have lots of books, assignments, papers and other items that they keep in their locker. However, Marisol is not very organized. Sometimes they are late to class because they need extra time to find things that were stuffed into their locker. What is Marisol’s problem? (Answer: Their locker is disorganized.) In your groups, you’ll read through Marisol’s situation and see how they use the engineering design process to solve it. Let’s get started!

This activity is intended as an introduction to the engineering design cycle. It is meant to be relatable to students and serve as a jumping off point for future engineering design work.

Engineers follow the steps of the engineering design process to guide them as they solve problems. The steps shown in Figure 1 are:

Ask: identify the need & constraints

• Identify and define the problem. Who does the problem affect? What needs to be accomplished? What is the overall goal of the project?
• Identify the criteria and constraints. The criteria are the requirements the solution must meet, such as designing a bag to hold at least 10 lbs. Constraints are the limitations and restrictions on a solution, such as a maximum budget or specific dimensions.

Research the problem

• Learn everything you can about the problem. Talk to experts and/or research what products or solutions already exist.
• If working for a client, such as designing new filters for a drinking water treatment plant, talk with the client to determine the needs and wants.

Imagine: develop possible solutions

• Brainstorm ideas and come up with as many solutions as possible. Wild and crazy ideas are welcome! Encourage teamwork and building on ideas.

Plan: select a promising solution

• Consider the pros and cons of all possible solutions, keeping in mind the criteria and constraints.
• Choose one solution and make a plan to move forward with it.

Create: build a prototype

• Create your chosen solution! Push for creativity, imagination and excellence in the design.

Test and evaluate prototype

• Test out the solution to see how well it works. Does it meet all the criteria and solve the need? Does it stay within the constraints? Talk about what worked during testing and what didn’t work. Communicate the results and get feedback. What could be improved?

Improve: redesign as needed

• Optimize the solution. Redesign parts that didn’t work, and test again.
• Iterate! Engineers improve their ideas and designs many times as they work towards a solution.

Some depictions of the engineering design process delineate a separate step—communication. In the Figure 1 graphic, communication is considered to be incorporated throughout the process. For this activity, we call out a final step— communicate the solution —as a concluding stage to explain to others how the solution was designed, why it is useful, and how they might benefit from it. See the diagram on slide 3.

For another introductory overview of engineering and design, see the What Is Engineering? What Is Design? lesson and/or show students the What Is Engineering? video. 

Before the Activity

• Make copies of the five-page Marisol Case Study , one per student, and the Group Leader Discussion Sheet , one per group.
• Be ready to show the class the Introduction to the Engineering Design Cycle Presentation , a PowerPoint® file.

With the Students

• As a pre-activity assessment, spend a few minutes asking students the questions provided in the Assessment section.
• Present the Introduction/Motivation content to the class, which includes using the slide presentation to introduce students to the engineering design cycle. Throughout, ask for their feedback, for example, any criteria or constraints that they would add, other design ideas or modifications, and so forth.
• Divide the class into groups of four. Ask each team to elect a group leader. Hand out the case study packets to each student. Provide each group leader with a discussion sheet.
• In their groups, have students work through the case study together.
• Alert students to the case study layout with its clearly labeled “stop” points, and direct them to just read section by section, not reading beyond those points.
• Suggest that students either taking turns reading each section aloud or read each section silently.
• Once all students in a group have read a section, the group leader refers to the discussion sheet and asks its questions of the group, facilitating a discussion that involves every student.
• Encourage students to annotate the case study as they like; for example, they might note in the margins Marisol’s stage in the design process at various points.
• As students work in their groups, walk around the classroom and encourage group discussion. Ensure that each group member contributes to the discussion and that group members are focused on the same section (no reading ahead).
• After all teams have finished the case study and its discussion questions, facilitate a class discussion about how Marisol used the engineering design cycle. This might include referring back to questions 4 and 5 in “Stop 5” to discuss remaining questions about the case study and relate the case study example back to the community problems students suggested in the pre-activity assessment.
• Administer the post-activity assessment.

brainstorming: A team creativity activity with the purpose to generate a large number of potential solutions to a design challenge.

constraint: A limitation or restriction. For engineers, design constraints are the requirements and limitations that the final design solutions must meet. Constraints are part of identifying and defining a problem, the first stage of the engineering design cycle.

criteria: For engineers, the specifications and requirements design solutions must meet. Criteria are part of identifying and defining a problem, the first stage of the engineering design cycle.

develop : In the engineering design cycle, to create different solutions to an engineering problem.

engineering: Creating new things for the benefit of humanity and our world. Designing and building products, structures, machines and systems that solve problems. The “E” in STEM.

engineering design process: A series of steps used by engineering teams to guide them as they develop new solutions, products or systems. The process is cyclical and iterative. Also called the engineering design cycle.

evaluate: To assess something (such as a design solution) and form an idea about its merit or value (such as whether it meets project criteria and constraints).

optimize: To make the solution better after testing. Part of the engineering design cycle.

Pre-Activity Assessment

Intro Discussion: To gauge how much students already know about the activity topic and start students thinking about potential design problems in their everyday lives, facilitate a brief class discussion by asking students the following questions:

• What do engineers do? (Example possible answers: Engineers design things that help people, they design/build/create new things, they work on computers, they solve problems, they create things that have never existed before, etc.)
• What are some problems in your home, school or community that could be solved through engineering? (Example possible answers: It is too dark in a community field/park at night, it is hard to carry shopping bags in grocery store carts, the dishwasher does not clean the dishes well, we spend too much time trying to find shoes—or other items—in the house/garage/classroom, etc.)
• How do engineers solve problems? (Example possible answers: They build new things, design new things, etc. If not mentioned, introduce students to the idea of the engineering design cycle. Liken this to how research scientists are guided by the steps of the scientific method.)

Activity Embedded Assessment

Small Group Discussions: As students work, observe their group discussions. Make sure the group leaders go through all the questions for each section, and that each group member contributes to the discussions.

Post-Activity Assessment

Marisol’s Design Process: Provide students with writing paper and have them write “Marisol’s Design Process” at the top. Direct them to clearly write out the steps that Marisol went through as they designed and completed their locker organizer design and label them according to where they fit in the engineering design cycle. For example, “Marisol had to jump back to avoid objects falling out of their locker” and they stated a desire to “wanted to find a way to organize their locker” both illustrate the “identifying the problem” step.

• Which part of the engineering design cycle is Marisol working on as they design an organizer?
• Why is it important to identify the criteria and constraints of a project before building and testing a prototype? (Example possible answers: So that the prototype will be the right size, so that you do not go over budget, so that it will solve the problem, etc.)
• Why do engineers improve and optimize their designs? (Example possible answers: To make it work better, to fix unexpected problems that come up during testing, etc.)

To make this a more hands-on activity, have students design and build their own locker organizers (or other solutions to real-life problems they identified) in tandem with the above-described activity, incorporating the following changes/additions to the process:

• Before the activity: Inform students that they will be undertaking an engineering design challenge. Without handing out the case study packet, introduce students to Marisol’s problem: a disorganized locker. Ask students to bring materials from home that they think could help solve this problem. Then, gather assorted materials (wood and fabric scraps, craft materials, tape, glue, etc.) to provide for this challenge, giving each material a cost (for example, wood pieces cost 50¢, fabric costs 25¢, etc.) and write these on the board or on paper to hand out to the class. 
• Present the Introduction/Motivation content and slides to introduce students to the engineering design process (as described above). Then have students go through the steps of the engineering design process to create a locker organizer for Marisol. Inform them Marisol has only $3 to spend on an organizer, so they must work within this budget constraint. As a size constraint, tell students the locker is 32 inches tall, 12 inches wide and 9.5 inches deep. (Alternatively, have students measure their own lockers and determine the size themselves.) 
• As students work, ask them some reflection questions such as, “Which step of the engineering design process are you working on?” and “Why have you chosen that solution?”
• Let groups present their organizers to the class and explain the logic behind their designs.
• Next, distribute the case study packet and discussion sheets to the student groups. As the teams read through the packet, encourage them to discuss the differences between their design solutions and Marisol’s. Mention that in engineering design there is no one right answer; rather, many possible solutions may exist. Multiple designs may be successful in imagining and fabricating a solution that meets the project criteria and constraints.

Engineering Design Process . 2014. TeachEngineering, Web. Accessed June 20, 2017. https://www.teachengineering.org/k12engineering/designprocess

Contributors

Supporting program, acknowledgements.

This material is based upon work supported by the National Science Foundation CAREER award grant no. DRL 1552567 (Amy Wilson-Lopez) titled, Examining Factors that Foster Low-Income Latino Middle School Students' Engineering Design Thinking in Literacy-Infused Technology and Engineering Classrooms. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the National Science Foundation.

Last modified: October 26, 2023

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Applying Written Communication Skills in Engineering

Tarek Aziz, assistant professor in the Department of Civil, Construction and Environmental Engineering, discusses the importance of written communication skills in engineering.

By Alison Krowiak, DASA Assessment

This article is part of a series on NC State’s Pack Proficiencies, which include the five skills all NC State undergraduates should develop before they graduate: written communication, oral communication, quantitative literacy, critical thinking and creative thinking. 

Written communication is defined as the “purposeful development, expression and revision of ideas in writing for specific audiences. Effective written communication follows appropriate genre conventions and may include a combination of text and other media.” Faculty throughout NC State understand that developing strong written communication skills will serve students well during their education and beyond (See our past interview with Alice Lee , associate professor in the Department of Biological Sciences, about the value of written communication for students within her discipline.)

Tarek Aziz, assistant professor in the Department of Civil, Construction, and Environmental Engineering, explains that the ability to communicate effectively will serve students well beyond their graduation. In the interview below, Aziz describes how students in the College of Engineering might experience written communication in their discipline and how written communication competencies could help students become informed and engaged citizens. Interview excerpts are edited for brevity and clarity.

Why is it important for students to develop strong written communication skills?

“It is a great life skill to be able to take in information, digest it, determine its appropriateness, and summarize it in a concise way. If you can communicate effectively in written form, you will have greater opportunities for leadership. You’ll get to work on important projects if you are the one that can distill the ideas into written form and self-edit. Thinking of the appropriate form of written communication is important, too. It’s really important for students entering the workforce to be able to tell what forms of communication are most appropriate for a situation. For example, they should ask themselves, ‘Is this an email, a technical report or a memorandum?’ Students who understand this develop their written communication competencies and will be able to really accelerate their careers.”

How do students in your field use written communication skills upon graduation?

“When students graduate, one of the most surprising things they find is that they are writing a lot more than they may have thought they were going to be writing. Engineers, in particular, may be working on very technical projects much of the time, but then they need to be able to communicate about those projects to people who may not have the same technical background. Engineering students will also need to be able to read, understand, interpret and communicate about regulations in written form. Engineering work may not always start with writing, but it’s going to involve interpreting or drafting written work at some point in the process. So the ability to communicate in written form is very useful.

For civil and environmental engineering, in particular, our students will go out and design good infrastructure, of course, but I want them to also communicate the importance of infrastructure to the rest of the world. Written competencies are going to be foundational to help our students go out and help the world understand the importance of infrastructure and share technical ideas to the masses.”

How can students use written communication to be thoughtful and engaged citizens?

“Graduating students is the most important thing we do here, and we are going to be graduating leaders. We’re going to be graduating people who will go on to change the world, and writing is so integral to that. It’s a big part of being a good citizen to understand information, read articles and social media, and look at that with a critical eye to interpret it or contest what’s said in written form. The ability to communicate effectively is really powerful, and students can help society by developing and utilizing those skills. That might mean writing meaningful letters to elected officials, serving on public committees that help make sure politicians are making informed decisions, and writing reports or summaries of those things.”

How can students improve their written communication competencies?

“One of the best things you can do is read a lot and write a lot, and then get feedback on your writing. A really great way to improve your writing is to get involved in undergraduate research, for example, where you will have to summarize what you’re doing in a concise way. Most students haven’t done that until they get involved in something like undergraduate research. Your advisor will get the opportunity to give you feedback, and that process of receiving feedback can really make a difference. There are plenty of faculty who are willing to give feedback as well. So my advice would be to get involved in things that involve writing, read quality examples of writing, and get feedback from faculty in your domain area so you can learn how to write in that field.”

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15: Laboratory Project for Introduction to Engineering

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For laboratory students will team up in 4 or 5 person teams. Each team would be expected to choose their own experiment (with instructor approval within a set of criteria that will ensure substantial sophistication). The main objective here is for the students to learn how real engineers work. It is very likely only prototypes will be developed by the end of this section, but that does not mean analysis, lab notebooks, and lab reports cannot be done even if the project is incomplete. Lab work usually takes many years to accomplish a significant result and it is important that students understand the process at this stage of their academic career.

Each student is expected to have a laboratory journal for taking detailed notes during the experiment. All experiments expect a laboratory journal of some sort (professional lab books are the best, but for academia a simple non-spiral bound composition notebook). Each student is expected to write their own laboratory report. While writing group laboratory reports might be acceptable in the "real world" in academia the purpose is to learn and everyone must be involved by writing their own laboratory report and by so doing learn some laboratory techniques.

For a modern laboratory project it is suggested that a control system with actuators and sensors be used to develop project that is capable of being tested in an experimental way. For this type of experiment there would need to be an graph of the data which would require an "independent" variable and a "dependent" variable (an x-y plot). For error bars you would need to perform an experiment at least five times (preferably more) for each independent variable. There are other types of graphs and analysis but they are less engineering-based (still you will need to learn them, but not here).

The intent is for a group to choose their own project and present it to the instructor for approval. This is so the student have a full experience.

Keys to all the labs:

• Labs must have one or more actuators
• Labs must have one or more sensors
• Actuators and sensors are to be controlled by a control system software (LabView, SciLab, or Octave) or just a standard programming language like Fortran or C++.
• All notes, drawings, data, etc. are to be entered into a lab book following lab journal rules given herein. Each student should have a lab book and it will be graded for completeness and format. This is different from the final laboratory report which each student also must turn in but will have a different sense of completeness.

To assist with ideas as small sample of ideas from other classes are presented here:

Example lab projects (with important details missing – for student to figure out if they go for that lab):

• Releasing different diameter rolled paper and measuring the speed from one point to another point. One actuator to drop the paper and two sensors to register time start and time end.
• Catapult distance given different release angles. While this can be theoretically figured out that does not matter, the point is the process not the experiment per se.
• Rotational speed of an AC generator connected to a light bulb (incandescent won’t work with an LED light) versus the brightness.
• Length of string from fix point to bob versus period.
• Weight of load for a vehicle versus the time to travel a set distance.
• Coefficient of friction (of known surfaces) versus velocity of vehicle.
• Power of motor versus velocity of a vehicle. Note the equipment this group had could control the power of the motor by software.
• Cooling water by stirring and not stirring as a function of time (two graphs to compare).
• For a full tub of water the size of an opening versus rate of water flow. This had some technical problems that made the build of this very difficult but was doable.
• Water flow on a water wheel versus electrical output. Lots of water requires some work outside so don’t do this type of experiment in the winter as you will get wet (even the professor might get wet during observation).
• 15.1: Laboratory Journal Format Basic description of laboratory journal format. All students should have a laboratory journal.
• 15.2: Laboratory Report Format Basic description of laboratory report format.  All students should have a laboratory report regardless if they worked in a group, this deviates from "real life" but is necessary in an educational environment where the goal is learning.
• 15.3: Example of Laboratory Report This is a simplified example of a laboratory report to help students understand how to write a laboratory report.  It is NOT realistic and definitely not advanced enough for the actual lab.
• 15.4: Sketch of how to present data in laboratory (i.e. graph with errors) This is a collection of notes to help the student present their data.  It is in Octave but could easily be done in any other programming language. It is not meant as definitive but just some ideas that a student could use.

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The Importance of Studying Engineering

Engineering is the synthesis of science, math, and creativity used to provide workable answers to challenging issues. It is more than just a topic of study; it is also a major influence on modern society and a driving factor behind technological development. In addition to fostering innovation, engineering is a field that is essential to solving problems in the real world. Engineering education is crucial for the progress of oneself and society. The value of studying engineering, the variety of job options it provides, the general significance of engineering, and how engineering assignment help students succeed are all covered in this thorough investigation.

Following are some reasons why studying engineering is important:

Improved Technology

The vanguard of technological development is engineering. From smartphones to renewable energy sources, engineers are at the forefront of developments that shape our lives. In order to participate in and contribute to this constantly changing environment, engineering study is a necessity.

Solving issues

Problem-solvers by nature, engineers are. They deal with complex issues, such as constructing environmentally friendly infrastructure and creating life-saving medical technology. Students who study engineering gain priceless problem-solving abilities that are applicable to a variety of fields.

Engineering is known for its inventiveness. The creators of innovative systems, methods, and products are engineers. Engineering education encourages innovation and equips students to push the limits of what is conceivable.

Sustainable Development

Sustainable engineering techniques are becoming more and more crucial as environmental concerns rise. Engineers are at the forefront of developing environmentally friendly solutions that contribute to a sustainable future, such as renewable energy technology and effective transportation systems.

Career Opportunities in Engineering

A wide range of career options in engineering are available, each with its own special difficulties and benefits. The following are some well-known engineering specialties and the career paths they open:

Engineering, Civil

The physical environment around us is shaped by civil engineers who plan and supervise the development of vital infrastructure including bridges, roads, and buildings.

Automotive Engineering

Aerospace and automotive industries both benefit from the design, analysis, and manufacture of mechanical systems done by mechanical engineers.

Engineering in Electrical

Power generation, electronics, and telecommunications are just a few of the electrical systems in which electrical engineers are experts. They propel improvements in communication and energy efficiency.

Computer Engineering and Science

By creating hardware and software solutions, computer engineers advance the ever-changing field of technology. They create software programmes, computer systems, and other things.

Engineering in Biomedicine

Healthcare is improved by biomedical engineers who use engineering principles. They work on tissue engineering, develop diagnostic tools, and build medical equipment.

Engineering the Environment

Environmental engineers make major contributions to environmental protection by tackling urgent environmental issues including waste management and pollution control.

Aviation Engineering

Aerospace engineers create spacecraft, aeroplanes, and related systems, advancing both aviation and space exploration.

Engineering, Chemical

Chemical engineers work in a variety of fields, such as materials science and medicine. They create procedures for producing goods and chemicals.

The Significance of Engineering in Society

Following are some benefits of studying engineering for society:

Infrastructure Growth

Critical infrastructure including roads, bridges, and buildings are built thanks to engineering. Without engineering, urban life as we know it would not exist.

Healthcare Innovations

Medical engineering has produced ground-breaking improvements in healthcare, including prosthetic limbs and diagnostic tools. These developments lengthen life expectancy and improve quality of life.

Engineers that specialise in environmental protection play a crucial part in solving environmental problems. They create innovations in the fields of clean energy, anti-pollution, and resource management.

Technological Progress

The internet and cellphones are only two examples of the everyday technology we depend on as a result of engineering advancements. Engineers keep pushing the envelope, resulting in continuous technical advancement.

Economic expansion

By encouraging innovation, generating jobs, and sustaining businesses, engineering promotes economic progress. In the end, it helps make countries more prosperous.

The Role of Engineering Assignment Services

Engineering students frequently deal with challenging academics and difficult homework. Engineering assignment services  are essential in helping students succeed academically: Listed are some points that justify this statement:

Assignment Support

Engineering assignment services aid students with difficult assignments, assisting them in understanding difficult concepts and successfully completing their projects.

Expert Direction

These services link students with engineering professionals who provide insightful explanations, solutions, and insights that help students better understand the course materials.

Better Learning Results

Students can enhance their academic performance and have a deeper understanding of engineering fundamentals by using assignment help.

Students studying time management engineering frequently have busy schedules. Assignment help services support students with time management, making sure they fulfil deadlines, and balancing their coursework.

Stress management

The academic process can be demanding. Engineering assignment experts reduce part of this stress by offering trustworthy assistance and materials.

Challenges and Future Trends in Engineering

Addressing climate change, maintaining cyber security, and promoting diversity and inclusion are just a few of the current difficulties facing engineering. The development of artificial intelligence, the Internet of Things (IoT), and sustainable engineering techniques are some future developments.

Studying engineering is crucial for one’s development as a person, the progression of society, and the development of technology. People that study engineering get the abilities to solve complicated issues, create, and improve the world. Engineering offers a variety of rewarding career options with the potential to significantly impact on a variety of fields. Furthermore, engineering has a crucial role in society, influencing infrastructure, health care, technology, and other areas.

With the aid of  engineering assignments , students can successfully negotiate the difficulties of their academic path and emerge as capable and creative engineers, prepared to meet the changing requirements of their sector. Engineering remains a vibrant and important field with endless opportunities for individuals who choose to follow this fulfilling educational path, embracing the challenges and trends of the future.

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• Mechanical Engineering Assignments: A Learning Tool

Assignment Writing as a Learning Tool: The Importance of Mechanical Engineering Assignments in Academics

Writing assignments is a potent educational tool that goes beyond what is typically taught in the classroom, particularly in the discipline of mechanical engineering. These assignments are crucial to students' academic development because they give them a chance to put their theoretical knowledge into practice, solidify their understanding, and spot knowledge gaps. Additionally, mechanical engineering assignments are very important in the development of students' problem-solving, critical thinking, and decision-making skills. Students are encouraged to think analytically, creatively, and innovatively through the completion of assignments, which equips them to take on challenging engineering problems. Assignments also give students hands-on learning opportunities, helping them to bridge the gap between theory and practice. Students develop a realistic understanding of industry standards and regulations through simulations, design projects, and case studies, preparing them for their future careers as mechanical engineers. Overall, mechanical engineering assignments help students develop professionally by giving them the knowledge and abilities they need to succeed in the engineering field.

I. Understanding Core Concepts:

One essential component of mechanical engineering assignments is comprehending fundamental ideas. These tasks force students to use their theoretical understanding to solve practical issues, which helps them better understand important ideas. Students gain a practical understanding of how theoretical principles are applied in various engineering scenarios by solving complex problems. Assignments also allow students to review and consolidate their knowledge, which helps to reinforce learning. Students frequently discover knowledge gaps as they work through assignments, which inspires them to look for additional resources and conduct additional research. Their understanding is improved, and a solid foundation in mechanical engineering is created through this iterative learning and problem-solving process. In general, the emphasis on mastering fundamental ideas in mechanical engineering assignments helps students gain a thorough understanding of the subject and gets them ready for future difficulties in their academic and professional endeavors.

A. Application of Theoretical Knowledge:

Mechanical engineering assignments require students to apply the theoretical knowledge they acquire in lectures and textbooks. Students develop a more profound comprehension of fundamental ideas when they apply those ideas to the solution of problems drawn from the real world. Students' analytical and problem-solving skills are improved through the completion of assignments that force them to make connections between theory and practice.

B. Reinforcing Learning:

Assignments act as a reinforcement tool, allowing students to review and consolidate their learning. When students are presented with challenging problems, they should review their notes, textbooks, and any other relevant resources to ensure that they have an in-depth understanding of the material. Because of this process, they will have a better understanding of the material, and they will be better able to remember it for future use.

C. Identifying Knowledge Gaps:

Through the assignment writing process, students often identify gaps in their knowledge. When they are confronted with difficult problems, they become aware of the areas in which they require additional education and training. This realization compels them to look for additional resources, continue their research, or enquire further about their professors to gain clarity. Filling in these knowledge gaps helps students build a solid foundation in mechanical engineering, which is why it's important to address them.

II. Developing Problem-Solving Skills:

Assignments in mechanical engineering are crucial in the development of problem-solving abilities. These tasks call for critical thinking, in-depth analysis of complex issues, and the creation of workable solutions. Students develop their ability to break down problems into manageable components, apply pertinent theories and principles, and evaluate various solution options by working on a variety of engineering problems. Through this process, their analytical and critical thinking skills are developed, empowering them to approach problems systematically and logically. Additionally, as students assess various factors, weigh trade-offs, and make wise decisions during assignments, decision-making, and judgment skills are developed. The ability to solve problems is a highly transferrable and necessary skill for success in the field of mechanical engineering.

A. Analytical and Critical Thinking Skills:

Mechanical engineering assignments call for students to use their analytical and critical thinking skills. They need to analyze the information at hand, break down difficult problems into their parts, and come up with effective solutions. By going through this process, they improve their ability to solve problems, which is an essential skill in the field of mechanical engineering.

B. Decision-Making and Judgement:

  Tasks give students the chance to make choices based on their analysis of a particular problem. They are required to investigate the available alternatives, weigh the benefits and drawbacks of each option, and select the most appropriate course of action. Because engineers are required to make important judgments that can have a direct effect on the outcome of a project, the ability to make sound decisions is an extremely valuable asset in the engineering profession.

C. Creativity and Innovation:

Tasks frequently involve open-ended issues that call for original solutions. Assignments encourage students to think creatively and innovatively by forcing them to think in ways that are outside the norm. Mechanical engineers are expected to be creative thinkers who can come up with novel concepts and design answers that can tackle difficult problems encountered in the field. Students are allowed to develop and display their creative abilities through the completion of assignments.

III. Practical Experience:

Assignments in mechanical engineering give students priceless practical experience. These assignments frequently include case studies, design projects, and simulations of actual engineering scenarios. Students gain practical experience and close the gap between theoretical knowledge and its practical application by participating in hands-on activities. They gain knowledge of how to use tools, methodologies, and techniques that are common in the industry, which improves their readiness for the engineering profession. Assignments allow students to gain practical experience, which aids in their understanding of the difficulties and complexity of engineering projects in the real world. Additionally, it equips students with a sense of assurance and industry knowledge, preparing them for a more seamless transition into their professional careers.

A. Bridging the Gap between Theory and Practice:

 Mechanical engineering assignments provide students with practical experience, bridging the gap between theoretical knowledge and real-world applications. Students participate in simulations, design projects, and case studies that require them to apply the fundamentals of engineering to real-world settings. They are better prepared for the challenges that they will face in their professional careers as a result of this hands-on experience.

B. Exposure to Industry Standards:

 Assignments often require students to adhere to industry standards and regulations. Students achieve a more realistic understanding of the expectations and requirements of the mechanical engineering industry when these standards are incorporated into their coursework. This exposure enables them to meet the demands of the industry and ensures that they are well-prepared for the roles they will play in the future.

IV. Professional Development:

Mechanical engineering assignments help students develop professionally as a whole. Employers in the engineering field highly value the problem-solving, critical thinking, and practical experience skills that can be acquired through assignment writing. Students develop their knowledge and skills as they work through various assignments throughout their academic careers, positioning them to become capable and successful engineers. A collaborative engineering environment requires strong teamwork, communication, and project management abilities, which are frequently required in assignments. Students gain valuable teamwork, communication, and time management skills by working on projects in groups. Engineers frequently work in multidisciplinary teams and must effectively communicate their ideas and progress to stakeholders, making these skills essential for career success.

A. Building a Strong Portfolio:

 Mechanical engineering assignments provide students with an opportunity to build a strong portfolio of their work. They can compile their completed projects into a portfolio as they work through assignments that highlight their skills and knowledge, and then use this portfolio to demonstrate their capabilities to prospective employers. A portfolio that has been carefully curated not only highlights the technical expertise of the individual but also demonstrates their capability of effectively addressing real-world engineering challenges.

B. Enhancing Employability:

 Engaging in mechanical engineering assignments significantly enhances students' employability. Employers place a high value on candidates who can demonstrate their ability to apply theoretical knowledge to real-world scenarios through their practical experience, which can be gained through assignments. Writing assignments provide students with the opportunity to develop skills in areas such as critical thinking and problem-solving, both of which make them more marketable as candidates for engineering jobs. Students can improve their chances of securing internships, co-op opportunities, and ultimately full-time employment in the field of mechanical engineering by performing exceptionally well in their coursework. This will help them stand out to potential employers.

The importance of mechanical engineering assignments in academics cannot be overstated, in my opinion. These assignments act as an effective teaching tool that helps students comprehend fundamental ideas, hone their problem-solving abilities, gain real-world experience, and advance their careers. Students bridge the knowledge gap between theory and practice by completing assignments, thereby preparing them for the difficulties they will face in their future careers. Additionally, the engineering industry places a high value on the abilities learned through assignment writing, such as critical thinking, analytical skills, and practical experience. The process of completing assignments helps students develop the skills and qualities needed to succeed as successful mechanical engineers in addition to their academic knowledge. As a result, students need to accept and actively engage in mechanical engineering assignments if they want to maximize their learning potential and build a strong foundation for their future professional endeavors.

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Assignment writing as a learning tool: importance of mechanical engineering assignments in academics submit your assignment, attached files.

Bridging the Gap How Engineering Assignment Help Boosts Grades

The field of engineering is renowned for its complexity, demanding a combination of theoretical understanding and practical application. As students navigate through challenging coursework, the need for support becomes evident. In this comprehensive guide, we will explore the multifaceted aspects of engineering assignments and the crucial role played by various services and professionals.

Understanding the Challenges

1. diverse nature of engineering assignments.

Engineering assignments encompass a wide range of tasks, from solving complex theoretical problems to applying principles in real-world scenarios. The interdisciplinary nature of engineering further complicates these assignments, requiring students to integrate knowledge from various domains.

2. Time Constraints and Stringent Deadlines

Students often face tight deadlines for completing engineering assignments, leading to stress and anxiety. Balancing multiple assignments, each with its unique set of challenges, becomes a daunting task, impacting the overall learning experience.

3. Need for Precision and Accuracy

Engineering assignments demand a high level of precision and accuracy. From mathematical calculations to intricate designs, any deviation from the correct solution can significantly impact the quality of the assignment and, consequently, the student’s academic performance.

The Role of Engineering Assignment Help Services

4. engineering assignment help: tailored support for success.

Engineering assignment help services have emerged as a valuable resource, providing tailored support to students facing the complexities of coursework. These services encompass a broad spectrum of assistance, ranging from concept clarification to comprehensive assignment solutions.

5. Engineering Assignment Helper: Your Academic Companion

The term “engineering assignment helper” refers to experienced professionals who offer more than just solutions. They act as academic companions, guiding students through challenging concepts, providing insights, and fostering a deeper understanding of engineering principles.

6. Help with Engineering Assignments: Bridging the Knowledge Gap

“Help with engineering assignments” emphasizes the crucial role these services play in bridging the gap between classroom learning and assignment requirements. The provision of detailed explanations and additional resources aids in enhancing students’ grasp of intricate engineering concepts.

7. Do My Engineering Assignment: Alleviating Academic Pressure

The plea “do my engineering assignment” echoes the sentiment of students overwhelmed by the academic workload. Engineering assignment help services step in to alleviate this pressure, offering timely and high-quality solutions that enable students to focus on understanding complex concepts.

8. Engineering Assignment Help UK: Tailoring to Regional Standards

For students in the United Kingdom, “engineering assignment help UK” signifies services tailored to regional academic standards. Understanding the nuances of the UK education system, these services provide targeted assistance to meet local expectations.

9. Engineering Assignment Writer: Excellence in Execution

The term “ engineering assignment writer ” emphasizes the importance of crafting well-researched, articulate, and technically sound assignments. These services go beyond mere problem-solving, ensuring the development of critical thinking and analytical skills.

10. Engineering Assignment Services: Holistic Academic Support

“Engineering assignment services” encompass a wide array of offerings, including assistance with homework, projects, research papers, and exam preparation. This holistic approach caters to the diverse needs of engineering students throughout their academic journey.

11. Do My Engineering Assignment for Me: Personalized Solutions

The plea “do my engineering assignment for me” highlights the individualized nature of the assistance provided by these services. Recognizing that each student has a unique learning style, engineering assignment help services deliver solutions tailored to meet individual needs.

12. Engineering Assignment Writer: Expertise Unleashed

The term “engineering assignment writer” emphasizes the expertise of professionals contributing to these services. These writers, with their in-depth knowledge of engineering disciplines, not only provide solutions but also offer valuable insights to enhance a student’s overall comprehension.

13. Online Engineering Assignment Help: Accessible Anytime, Anywhere

“Online engineering assignment help” signifies the accessibility and convenience these services offer. With 24/7 availability, students can seek assistance whenever needed, making it a valuable resource for those facing tight deadlines or urgent queries.

Strategies for Success in Engineering Assignments

14. effective time management.

Navigating through multiple assignments requires effective time management. This section explores strategies for optimizing time, setting priorities, and creating a study schedule that allows for a balanced approach to various engineering tasks.

15. Collaboration and Peer Learning

Engaging with peers and forming study groups can enhance the learning experience. This section delves into the benefits of collaboration, discussing how shared insights and diverse perspectives contribute to a deeper understanding of engineering concepts.

16. Utilization of Additional Learning Resources

Beyond traditional classroom materials, a wealth of online resources, textbooks, and academic journals are available. This section guides students on effectively utilizing these resources to supplement their understanding and excel in their assignments.

17. Practical Applications and Hands-on Experience

Incorporating practical applications into the learning process is crucial for understanding engineering concepts. This section explores the importance of hands-on experience, internships, and practical projects in reinforcing theoretical knowledge.

Building a Strong Foundation for Future Success

18. critical thinking and problem-solving skills.

Successfully navigating engineering assignments not only leads to immediate academic success but also contributes to the development of critical thinking and problem-solving skills. This section discusses how these skills form a strong foundation for future success in the engineering profession.

19. Preparation for Professional Challenges

The skills acquired through engineering assignments prepare students for the challenges they will face in their professional careers. This section explores how the ability to analyze problems, propose solutions, and work collaboratively translates into success in the engineering industry.

In conclusion, the journey through engineering education is a multifaceted one, marked by challenges and opportunities for growth. While engineering assignments pose various hurdles, the availability of specialized assistance, such as engineering assignment help services, serves as a beacon of support for students striving for academic excellence. By embracing this support, implementing effective strategies, and building a strong foundation, students can not only conquer the challenges of their coursework but also lay the groundwork.

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Engineering in Society: Why Engineers are Important in the Modern World

Engineers are curious-minded people focused on solving problems and finding solutions to the world’s most complex challenges. Furthermore, we owe most of today’s technological advancements and comforts to the ingenuity of engineers.

Not to mention that they made things more fun for themselves as well. A career in engineering is a lot more fun today than it used to be 50 years ago. With today’s available materials and technology, engineers are free to work on complex issues such as disaster recovery, poverty, overcrowding of cities, and more.

So, if you’re still wondering why we need engineers in a world where the technology is already advanced enough to start thinking for itself, we have a few thoughts that may tickle your mind.

Forever Learners

If nothing else, engineers are a fantastic example of why we should never stop learning. These people are curious by nature, but if they want to stay at the top of their game, they must be always a few steps ahead.

And, with new devices and systems popping up all over the world, it takes a special dedication to continuous learning and skill-sharpening. For instance, just to become a Professional Engineer, in the field they chose, one needs to invest extra effort in study and practice (like attending a PE review course ).

As a PE, you prove your commitment to high ethical standards and your knowledge level, which opens new doors for your career. This is why many engineers are quick to take the PE exam as soon as they leave academia. It’s a way to further your career and become more trustworthy to companies and people who may have interesting projects to offer.

In summary, when it comes to learning, engineers are the role model to follow. If we stay curious and open our minds to new information and possibilities, we have the chance to make the world a better place.

Protecting the Environment

Currently, we are facing one of the biggest challenges of modern times: climate change. Our way of living is under threat from Mother Nature, and it’s partially our fault. The accelerated development of human civilization in the last couple hundred years added to the natural changes of the climate and is slowly but surely making the world uninhabitable.

Sadly, current political and economical interests don’t allow room for change, but environmental and energy engineers have the tools to fight for everyone’s rights.

The field of energy development is currently working hard at creating ecologically friendly energy sources that can replace the ones based on fuel and carbon. In addition, engineers also try to create new technologies that detect high-levels of pollution and convey the information to decision-makers.

This led to the creation of non-polluting energy sources such as alternative fuels based on hydrogen, fuel cells, and others. Even more, we now have several reliable air, soil, and groundwater restoration systems that may convey results in the future.

In addition, there are entire teams dedicated to identifying and eliminating pathogens that can be found in the soil and drinking water of developing nations. These pathogens can cause serious illnesses that may have the capacity to decimate entire populations.

In summary, we desperately need engineers interested in solving problems that affect the environment. If they manage to tackle the problem of pollution in the air, soil, and groundwater, human civilization can improve and continue to develop without conflict or violence.

Access to Advanced Communication Systems

Even though most western civilization is heavily connected to the Internet (who hasn’t got a phone, a laptop, and a Smart TV these days?), there are still large areas of the world where access is limited or non-existent.

source: https://pixabay.com/photos/cell-site-solar-generator-4494481/

This means large masses of people don’t have access to life-altering technologies that could help them get better jobs and improve their living conditions. It also means that health professionals, scientists, and decision-makers don’t have access to the latest discoveries in their fields, which hinders the overall development of the nation.

To make things worse, some leaders of developed countries take advantage of the situation and push complex problems such as recycling dangerous materials or massive deforestation (to name a few) onto the shoulders of impoverished nations.

As the gap in access to the Internet is starting to close (thanks to ingenious engineers), these situations are easier to identify and bring under the public eye. And, with solutions like the Starling network developed by SpaceX, there is a chance that everyone will be connected in the near future.

However, without the work of dedicated professional engineers, the Starlink network of satellites wouldn’t have been possible (even though they are prone to ruin stargazing for everyone ).

Better Food for Everyone

While it’s hard to believe (from a westerner’s point of view), 1 in 9 people doesn’t get enough to eat. And, according to the 2019 World Hunger Map, there are many areas that battle with the problem of limited access to quality food.

There are many reasons for this lack of food (low soil fertility, overpopulation, primitive farming methods, no clean water supplies, and so on) but engineering innovations can help improve the situation.

Engineers in various fields are the ones who managed to develop crops, fruits, and vegetables that grow even in less fertile areas and are more resistant to diseases and other attackers. Even more, engineers also helped create solutions for reducing the use of pesticides without affecting the quantity of food produced. They also helped develop machines used in farming and harvesting.

In addition, as the population increases, we will need to find ways to produce more food without having access to more land. This means new equipment using eco-friendly energy sources that won’t drain the environmental resources.

In the end, it’s important to understand that our world was built with the hard work of engineers. Of course, many of today’s discoveries, treatments, and processing methodologies are administered and used by other types of specialists. But they couldn’t be doing their jobs without the machines and technologies that engineers developed.

And we are not done! We have more problems to solve and new challenges to discover. So yes, the modern world couldn’t live or continue to develop without the curiosity and ingeniosity of engineers!

This article does not necessarily reflect the opinions of the editors or management of EconoTimes

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The Importance of Communication Skills for the Modern Engineer

By Graham Ballinger

When you think of engineering, what comes to mind? If you are an outsider to the major, you probably think of the stereotypical, overworked student whose work consists of nothing but endless calculations. I doubt many of us would attribute writing and public speaking to the average engineer’s career.  We assume engineers leave that stuff to the humanities students.

Although the “overworked student” stereotype is still accurate, what most people don’t realize is just how prominent and vital communication skills have become in the field of engineering. We can define “communication skills,” as anything that has to do with communication. This broad definition includes writing, speaking and listening skills. Studies have shown that most graduates felt they had gained analytical and problem-solving skills, subject-specific knowledge and improved decision-making abilities through their engineering degrees. Much fewer felt that their communication skills had improved due to their engineering education.  [1]

So why should engineers want to hone their communication skills? One big reason that should catch student’s attention is that it is a valuable career enhancer. Employers want engineers with strong communication skills. They assume most people who graduate with an engineering degree have the technical expertise to do their jobs; what employers are looking for in a candidate is the ability to communicate their findings with others in a productive, efficient manner. In today’s world, it is essential for an engineer to possess strong communication skills; it is the biggest determiner of success in the modern engineer’s professional career. [1]

Aside from impressing their employers and being hired, engineers need to use communication skills every day. Imagine you’re an engineer working in a 4-person team on an assignment. Each team member has important tasks, and everyone’s contributions are crucial to the success of your assignment. What if one of the workers lacks communication skills? They don’t listen well. They don’t contribute to group discussions on how to move the project forward. Their written reports are unclear and unorganized. Instead of making progress, you’re going to be struggling to decipher their work and incorporate their findings into the overall project. Valuable time, resources, and energy will be wasted, and the finished assignment will likely be lackluster. The team never reaches its full potential, all because somebody didn’t bother to develop decent communication skills. Now, obviously that is an extreme hypothetical situation regarded someone with poor communication skills. However, the overall point is clear: a lack of communication skills in today’s engineer leads to inefficiency, wasted effort, mistrust and resentment between co-workers. Not many people would want to hire or work with someone like that.

So what can engineering students today do to work on this problem? Thankfully, in the last decade or so, Ohio State, along with other major universities, has taken notice of the importance of teaching communication skills to their students. For example, Professor Mary Faure integrated an interesting twist into her ENGR 2367 class by developing a collaborative education model with representatives of two central Ohio-based companies. Essentially, the companies present students with a real-world engineering problem. Students quickly had to learn enough about the subject to start developing their own solutions. They worked with real professional engineers to come up with solutions, simultaneously honing their communication skills by attacking a real-world work situation.

“Today’s engineering students need engaging, contextually-positioned technical communications, project management, entrepreneurial thinking, and teamwork instruction and practice in order to perform well in advanced discipline-specific engineering classes, internships, capstone, and in their entry level engineering positions,” said Mary Faure, “This project was designed to provide important skill-building through authentic, hands-on experience, which today’s students crave . . . it gives students a unique experience without adding credit hours to their curriculum or costs to college expenses.”  Faure’s project introduced an exciting way to incorporate the teaching of communication skills into an already-crowded engineering curriculum.

An obstacle course where each group competes to determine whose robot is the best

Dr. Kathy Harper, a professor who teaches in the Fundamentals of Engineering Honors (FEH) program, has also taken notice of the need to incorporate communication skills into the engineering curriculum. She is part of a team that organizes a Robotics competition each year for first-year students in the FEH program. Her students typically write some sort of report, memo, or abstract at least once a week.

“We really emphasize technical communication and writing . . .The students get very good at it as the course goes on,” says Harper, “We’ve taken time away from lab to talk to students about basic writing and grammatical skills. We teach them to write specific details, instead of writing vaguely.”

At the end of the course, the students write a technical report on their final project. This obviously involves writing some things individually, but also writing some things as a group, a skill Dr. Harper thinks is equally important.

“The students really have to communicate their findings with each other effectively,” says Harper. “It’s hard to take something 4 people have worked on, and put it together so it seems like it has the same voice.”

Dr. Harper says students are continually amazed by how much documentation goes into robot building project. They document the process that went into designing the robot, whether it was successful or not and what would they do next.  They also have to show their budget, how much time they worked on the robot.

“These details are all things the people who will be paying these students to do these jobs in the future will want to know.  ‘How did your ideas evolve, why did you decide to do what you did, why should we like this, why should we give you more money to continue the project…Why did it cost so much to make this?’” Dr. Harper explains. “The students have to say, ‘well here are the people hours we put into it, here are the materials we put into it, here’s the amount of time we used in the test facility.’ All these things have to be communicated.”

Each group’s robot is unique and built from scratch

The robot competition aims to instill these communication skills in their students, so they can be better prepared for their careers after graduation. Some groups even get a first-hand experience into just how important these skills when working on the project.

According to Dr. Harper, “90% of the time, when you see a team that is having issues, most of those issues can be solved with better communication.”

So how can you make sure your communication skills continue to improve in college? Dr. Harper has a simple solution.

“Any skill that’s worth learning requires practice. You don’t watch a lot of football games, then go in and feel like you could be the quarterback and win the Super Bowl. Just because you’ve watched it a lot, you understand the mechanics of it and you understand the rules of the game, doesn’t mean that you know how to play it,” explains Harper. “Whenever you’re put in a place where it’s time to refine skills, you have to be ready to practice; you have to be ready to learn new things. You have to be ready to take the feedback.”

[1] http://www.wiete.com.au/journals/GJEE/Publish/vol11no1/Riemer.pdf

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Why Are Ethics Important in Engineering?

• 16 Feb 2023

Engineers are vital to shaping our world. Their decisions have far-reaching consequences—typically related to risk management. As such, it’s essential for engineers to hold themselves to a high standard.

In a survey published by the International Conference on Engineering Education (IEEE) , 92 percent of respondents said ethical issues exist in engineering and could be improved. This kind of sentiment has led companies to examine their ethical standards, particularly in relation to engineering leadership.

If you’re interested in learning about how ethics shape engineering, here’s an overview of the industry’s ethical standards, why they’re important, and the role they play in leadership.

Access your free e-book today.

What Are Engineering Ethics?

Engineering ethics are principles and guidelines engineers follow to ensure their decision-making is aligned with their obligations to the public, their clients, and the industry. The National Society of Professional Engineers’ (NSPE) code of ethics outlines the standards of ethical behavior engineers should follow in their professional lives. Those include:

• Protecting public safety
• Only performing tasks they’re qualified to do
• Being honest in public communications
• Remaining faithful and trustworthy to employers
• Acting with integrity

These principles are designed to help you, as an engineer, make ethical decisions in your work and promote responsible use of industry technologies.

7 Reasons Ethics Matter in Engineering

Trust is required between engineers and the public, which is why it’s crucial for you to understand the importance of acting ethically. Here are seven reasons why ethics matter in engineering.

1. Promotes Safety

The NSPE’s code of ethics requires you to prioritize public safety in your work.

For instance, you’re expected to notify employers and clients when their judgment is overruled because of dangerous circumstances or when documents don’t conform with applicable standards. Doing so can prevent harm to individuals and communities and ensure your work meets the highest safety and reliability standards.

In addition to ethical considerations, there’s a business case for safety in the workplace. Prioritizing safety not only protects employees and customers but also improves productivity and reduces costs associated with accidents and injuries. According to Liberty Mutual’s 2021 Workplace Safety Index , U.S. employers spend more than $1 billion per week on serious, nonfatal workplace injuries.

2. Enhances Quality

Engineering ethics are also critical to improving your quality of work. According to NSPE’s code of ethics, you should only perform tasks that closely align with your education and experience.

This is important when working toward an engineering leadership position. For instance, as an organizational leader , you’ll often manage individuals who are experts in areas you know little about. You’ll need to shift from a specialist to a generalist management style by focusing on relationships, adding value by enabling work, considering the bigger picture, and relying on executive presence. The goal is to enable specialists on your team to do their highest-quality work.

The “leader as architect” concept—discussed in the Harvard Business School Online course Organizational Leadership taught by HBS professors Anthony Mayo and Joshua Margolis—refers to your role in enabling work to happen rather than doing it yourself.

“Since leaders can’t personally make those conditions happen for each person every day across a big organization, they don the hat of the architect,” Mayo says in Organizational Leadership . “And their work is to use a set of organizational components to create and sustain motivation, competence, and coordination.”

3. Improves Public Opinion

Ethics also help improve public opinion about engineering professions.

For example, the NSPE’s code of ethics requires you to be honest in your public communications through objective, truthful statements free of private interest, deception, or misrepresentation. Honesty in public relations is crucial to building trust. It’s even more critical for you as an engineer because your decisions directly affect the public’s safety and well-being.

In an era where communication skills are increasingly valued, it’s crucial to act ethically in your interactions with the public. Doing so can help improve perceptions about the engineering industry and demonstrate your commitment to ethical, responsible behavior.

4. Safeguards the Company’s Interests

Adhering to engineering ethics can also help protect your company’s interests.

The NSPE’s code of ethics discourages you from disclosing sensitive or confidential company information without explicit consent, obtaining employment or advancement with improper methods, and unethically harming other engineers’ professional reputations.

By adhering to these principles, you can help protect your firm’s interests—as well as your team's—and ensure you contribute to its success.

5. Fosters Sustainability

Engineering ethics promote sustainability by requiring you to consider your work's long-term impact on the environment and society. Additionally, sustainability is vital to modern business because it can improve your organization’s reputation, increase growth opportunities, and boost financial performance.

If you struggle to understand sustainability's context in your role as an engineer, consider the triple bottom line , a concept that asserts businesses should go beyond financial performance and measure their social and environmental impacts. If you consider profit, people, and the planet in your daily work, you’re more likely to follow the industry’s ethical standards around sustainability.

6. Protects Other Engineers

Engineering ethics aren’t just meant to protect employers, clients, and the public. They also help protect individual engineers by discouraging all industry professionals from engaging in unethical or illegal behavior for their benefit.

The NSPE’s code of ethics specifically states that “engineers shall not attempt to obtain employment or advancement by untruthfully criticizing other engineers.” It also specifies that “engineers shall not attempt to injure, maliciously or falsely, directly or indirectly, the professional reputation, prospects, practice, or employment of other engineers.”

These guidelines are especially important when considering your team’s performance and productivity. Fostering an environment that promotes employee engagement can prevent negative dynamics from corrupting your workplace.

7. Secures Company Assets

Engineering ethics help ensure your team members and organizational leaders act in ways that protect your company’s intellectual property and confidential information.

The designs, inventions, and writings created by your team are often recognized as the property of either your client or the individual responsible for those assets. You must acknowledge such ownership agreements prior to beginning work. In doing so, you can prevent theft and misuse of your company’s assets and protect its investments.

The Importance of Ethical Leadership

Leading ethically is critical to long-term success in the engineering industry. Ethical leaders model honorable behavior, set an example, and foster cultures of integrity and respect.

“A leader needs to be adaptable and step out of their comfort zone if they want to foster a culture in which others do the same,” Mayo says in Organizational Leadership .

By adhering to the tenets of ethical leadership, you can hire individuals whose principles align with your organization’s values.

“You want to look for individuals whose values, attitudes, and skills are consistent with what your organization needs and cares about,” Margolis says in the course.

Elevate Your Organizational Leadership as an Engineer

Ethics are crucial in engineering. They not only promote quality work but also encourage you to operate safely and maintain a high standard of ethical responsibility.

As an organizational leader, you often dictate your company’s culture and values. Understanding engineering ethics—and the business skills needed to apply them—is essential to your success.

By furthering your education through an organizational leadership course , you can learn how to adapt to constantly evolving responsibilities and become an effective leader .

Do you want to learn more about how to lead ethically? Enroll in our online certificate course Organizational Leadership —one of our leadership and management courses —and develop in-demand business skills that can benefit your engineering career. If you aren’t sure which course is right for you, download our free flowchart to explore your options.

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What is the Importance of assignment writing for student

The mention of the word ' assignment' is a discussion of annoyance for anyone. An assignment's impact is the same on all the students, whether they’re from the same field or some different fields. Usually, when students hear they need to make an assignment, they feel it’s a nightmare for them. But when they start doing it, they’re involved in a process wherein they research a lot and thus improve their academic and other skills.

E writing Champs offers all such services and also helps the students with the research work and improve their academic performance. Writing assignments uplifts your academic background, increases your knowledge about a particular subject, and develops a good writing speed. Not only this assignment, writing has various other advantages for the students.

Advantages of assignment writing for the students:

Enhancement:.

Students are given different topics for an assignment that requires them to get engaged in a process that is research-oriented, and it is rightly said that the brain often develops well while researching. Hence, assignment writing enhances and nourishes your brain by contributing to its growth.

Improves practical skills:

In the process of writing an assignment, students get to know a structure or pattern. Assignment writing involves research work, whether it is for anyone. Before writing an assignment, you’re supposed to do a lot of research work which develops your practical skills well in the long run. When a student is trying to get a clear picture of the topic related to their assignments, they tend to develop deep knowledge about the same and with this, their practical skills are brushed up.

Improves writing pattern:

Assignment writing requires students to write about a particular topic in detail with all its subdivisions and so on. When you do so, you get to improve your writing skills, as writing long assignments also helps you to develop a good writing speed.

Boost focus:

Most of the time, assignments are associated with your academic growth, which makes you all the more attentive and boosts your focus. Thus, writing as an assistant is directly linked with the determination and hard work of the students. Students also develop a competitive spirit and try to perform better to the best of their abilities. In the process, they’re contributing to their academic background and boosting their focus.

Develops good organizing and planning skills:

A student's work while assignment writing involves a lot of planning and plotting. A student should always prioritize his/her peace of mind over any other chaotic situation while writing an assignment. This makes their organizing and planning skills better and makes them systematic individuals with the right goals in their minds.

Gain knowledge and awareness:

Teachers ensure that the students are provided with different assignment activities in a way that helps them know about their importance. By doing this, they’re helping the students to create deep insights about a particular topic and enrich their learning in a better way. Thus students, while writing assignments, enrich their horizon of learning and gain expertise with time.

Enhanced Cognitive and Analytical Skills:

We can also say that students tend to increase their imaginative skills while writing assignments. This further helps them to develop and improve their mental potential as well. With good mental abilities and a sharp mind, students also tend to increase their focus.

Development of research skills:

Assignments help the students to develop a habit of researching and exploring new things and learning about why there are certain assumptions and examples related to different topics. Using assignments, students will be able to research in a detailed manner, which will help them improve their research and exploring abilities.

Time Management:

Usually, colleges and universities give students many assignments they need to finish by specific deadlines. When the assignments are time-bound, students put their heart and soul into completing them systematically and organised without wasting any time. In this process, they develop efficient time management skills and realise time's value. Not only their dedication towards work improves, but they’re able to get into a routine that helps them to work smoothly. The more they’re encouraged to write, the more they become experts in this field.

Improves learning with real-life concepts:

The real-life assignment concept requires a student to develop learning that is based on linking their topic with daily life examples. When they practice the daily life concept, they tend to learn more and experience new things by connecting their life to the topic. This also helps the student to learn and acquire new levels of learning each time they get involved with the assignment writing task.

Coursework learning:

Every coursework comprises weekly assignments that help the students to improve their overall learning. Deadlines of coursework are fixed for everyone. e Writing Champs assist you in doing qualified coursework without the foundation of time. It removes the worries of submission of the work on time as a team of experts assists you in completing the task and submitting it on time and participating in the discussion to assist you in accomplishing high scores.

Helps to boost your academic performance:

When you are stuck with typical networking assignments due to the complexity of tasks and networking plus lack of understanding, you can access online assignment writing services for students. If your academic background goes down due to these issues, you need to hire some professionals to help you out in assignment writing for details for different related topics. We at e Writing Champs provide all such solutions to the students and assist them in improving their academic performance by submitting well-written research-oriented assignments for them.

Evaluation :

The primary purpose of providing assignments to students is to analyze whether they have grasped much about that topic or not. It is a kind of evaluation process that ensures and determines how much the student has learned or has he/she even grasped anything.

To become successful:

Assignment and homework writing is something that helps students with their future studies, practices, and theories; in the whole process, they are also able to learn for their examination. This also helps them achieve their specific set of targets and goals and improves their concentration power as well.

Overall, assignment writing is a process that has multiple benefits for the growth and development of the students and their life ahead. Though assignment writing may seem lengthy, it ensures a better individual with proper writing skills, practical skills, time management abilities, coursework learning skills, good research skills, and so on. We specialize in assignment writing services for students at all levels and assist them with their all-around academic development with our team of professionals who have a good education and depth knowledge about this industry. Feel free to contact us, and we will be at your service to provide you with the best of the assignments in a limited time according to the deadlines that are given to the students. We also specialize in other services like book review writing, online product review writing , etc.

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A survey conducted by the Associated Press has revealed that around 58% of parents feel that their child has been given the right amount of assignments. Educators are thrilled that the majority has supported the thought of allocating assignments, and they think that it is just right.

However, the question arises when students question the importance of giving assignments for better growth. Studies have shown that students often get unsuccessful in understanding the importance of assignments.

What key purpose does an assignment have? They often question how an assignment could be beneficial. Let us explain why a teacher thinks it is best to allot assignments. The essential functions of assigning tasks or giving assignments come from many intentions. 

What is the Importance of Assignment- For Students 

The importance of the assignment is not a new concept. The principle of allocating assignments stems from students’ learning process. It helps teachers to evaluate the student’s understanding of the subject. Assignments develop different practical skills and increase their knowledge base significantly. As per educational experts, mastering a topic is not an impossible task to achieve if they learn and develop these skills.  

Cognitive enhancement 

While doing assignments, students learn how to conduct research on subjects and comprise the data for using the information in the given tasks. Working on your assignment helps you learn diverse subjects, compare facts, and understand related concepts. It assists your brain in processing information and memorizing the required one. This exercise enhances your brain activity and directly impacts cognitive growth. 

Ensured knowledge gain   

When your teacher gives you an assignment, they intend to let you know the importance of the assignment. Working on it helps students to develop their thoughts on particular subjects. The idea supports students to get deep insights and also enriches their learning. Continuous learning opens up the window for knowledge on diverse topics. The learning horizon expanded, and students gained expertise in subjects over time.      

Improve students’ writing pattern 

Experts have revealed in a study that most students find it challenging to complete assignments as they are not good at writing. With proper assistance or teacher guidance, students can practice writing repetitively.

It encourages them to try their hands at different writing styles, and gradually they will improve their own writing pattern and increase their writing speed. It contributes to their writing improvement and makes it certain that students get a confidence boost. 

Increased focus on studies 

When your teachers allocate a task to complete assignments, it is somehow linked to your academic growth, especially for the university and grad school students. Therefore, it demands ultimate concentration to establish your insights regarding the topics of your assignments.

This process assists you in achieving good growth in your academic career and aids students in learning concepts quickly with better focus. It ensures that you stay focused while doing work and deliver better results.         

Build planning & organization tactics

Planning and task organization are as necessary as writing the assignment. As per educational experts, when you work on assignments, you start planning to structurize the content and what type of information you will use and then organize your workflow accordingly. This process supports you in building your skill to plan things beforehand and organize them to get them done without hassles.   

Adopt advanced research technique

Assignments expand the horizon of research skills among students. Learners explore different topics, gather diverse knowledge on different aspects of a particular topic, and use useful information on their tasks. Students adopt advanced research techniques to search for relevant information from diversified sources and identify correct facts and stats through these steps.  

Augmenting reasoning & analytical skills 

Crafting an assignment has one more sign that we overlook. Experts have enough proof that doing an assignment augments students’ reasoning abilities. They started thinking logically and used their analytical skills while writing their assignments. It offers clarity of the assignment subject, and they gradually develop their own perspective about the subject and offer that through assignments.     

Boost your time management skills 

Time management is one of the key skills that develop through assignments. It makes them disciplined and conscious of the value of time during their study years. However, students often delay as they get enough time. Set deadlines help students manage their time. Therefore, students understand that they need to invest their time wisely and also it’s necessary to complete assignments on time or before the deadline.  

What is the Importance of Assignment- Other Functions From Teacher’s Perspective: 

Develop an understanding between teacher and students  .

Teachers ensure that students get clear instructions from their end through the assignment as it is necessary. They also get a glimpse of how much students have understood the subject. The clarity regarding the topic ensures that whether students have mastered the topic or need further clarification to eliminate doubts and confusion. It creates an understanding between the teaching faculty and learners. 

Clarity- what is the reason for choosing the assignment 

The Reason for the assignment allocated to students should be clear. The transparency of why teachers have assigned the task enables learners to understand why it is essential for their knowledge growth. With understanding, the students try to fulfill the objective. Overall, it fuels their thoughts that successfully evoke their insights. 

Building a strong relationship- Showing how to complete tasks 

When a teacher shows students how to complete tasks, it builds a strong student-teacher relationship. Firstly, students understand the teacher’s perspective and why they are entrusted with assignments. Secondly, it also encourages them to handle problems intelligently. This single activity also offers them the right direction in completing their tasks within the shortest period without sacrificing quality. 

Get a view of what students have understood and their perspective 

Assigning a task brings forth the students’ understanding of a particular subject. Moreover, when they attempt an assignment, it reflects their perspective on the specific subject. The process is related to the integration of appreciative learning principles. In this principle, teachers see how students interpret the subject. Students master the subject effectively, whereas teachers find the evaluation process relatively easy when done correctly. 

Chance to clear doubts or confusion regarding the assignment  

Mastering a subject needs practice and deep understanding from a teacher’s perspective. It could be possible only if students dedicate their time to assignments. While doing assignments, students could face conceptual difficulties, or some parts could confuse them. Through the task, teachers can clear their doubts and confusion and ensure that they fully understand what they are learning.   

Offering individualistic provisions to complete an assignment 

Students are divergent, and their thoughts are diverse in intelligence, temperaments, and aptitudes. Their differences reflect in their assignments and the insight they present. This process gives them a fair understanding of students’ future and their scope to grow. It also helps teachers to understand their differences and recognize their individualistic approaches.  

Conclusion:

You have already become acquainted with the factors that translate what is the importance of assignments in academics. It plays a vital role in increasing the students’ growth multifold. 

TutorBin is one of the best assignment help for students. Our experts connect students to improve their learning opportunities. Therefore, it creates scopes of effective education for all, irrespective of location, race, and education system. We have a strong team of tutors, and our team offers diverse services, including lab work, project reports, writing services, and presentations.

We often got queries like what is the importance of assignments to students. Likewise, if you have something similar in mind regarding your assignment & homework, comment below. We will answer you. In conclusion, we would like to remind you that if you want to know how our services help achieve academic success, search www.tutorbin.com . Our executive will get back to you shortly with their expert recommendations. 

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Why Your Enterprise Needs to be Thinking About Platform Engineering

April 18, 2024

by Keiran Holloway, Senior Manager, Professional Services Delivery, Rackspace Technology

Introduction

Platform engineering is a term that is being embraced by companies looking to adopt the cloud quicker and in a more consistent fashion, and for good reason. As businesses continue to evolve in the digital age, the way we approach the development and management of technology platforms is also undergoing a significant transformation.

The crux of platform engineering lies in its aim to create a comprehensive, streamlined, and highly efficient environment for software development and operations. This approach prioritizes automation, integration, and continuous delivery, allowing for rapid scaling and ensuring that infrastructure can keep pace with the ever-increasing demands of business and technology.

From past to present: the evolution of infrastructure

The table outlines a clear progression from a past dominated by dedicated infrastructures and manual deployment mechanisms to a present where cloud services, infrastructure as code (IaC), and CI/CD pipelines are becoming the norm.

Infrastructure 

In the past, infrastructure was often dedicated and static, requiring significant capital expenditure and long lead times to scale or change. In contrast, the present has embraced cloud-based models that combine traditional service-based approaches with cloud-native solutions, offering more flexibility and agility.

Deployment mechanism

Deployment mechanisms have evolved from manual processes, which are slow and error-prone, to IaC and CI/CD pipelines. These automated pipelines not only accelerate deployment but also ensure that the same procedures are applied across all environments, greatly reducing the chance of human error and inconsistencies.

Architecture patterns

The transition from monolithic to microservices architecture is perhaps one of the most profound shifts in platform engineering. Monolithic architectures, which bundle all services into a single, indivisible unit, are giving way to microservices, which break down applications into smaller, interconnected services. This modularity allows for easier updates, quicker deployments, and a more resilient system overall.

As we embrace these new technologies, the complexity of managing them inevitably increases. However, this complexity brings with it a higher degree of control and optimization, allowing organizations to create more sophisticated, responsive platforms

Provisioning lead time and deployment frequency

There has been a dramatic reduction in provisioning lead time — from weeks or months to days, or even on-demand. Deployment frequency has undergone a similar revolution, moving from weeks or months to daily deployments, allowing businesses to respond to market changes and customer feedback with unprecedented speed

Change failure rate and business relevance

The change failure rate has significantly decreased from over 60% in the past to 15-25% today, thanks to automated testing and deployment strategies. As a result, the relevance of business technology has shifted from merely supporting business processes to being core to the business itself.

The future of platform engineering

Looking forward, the table suggests a future with a bias toward a cloud-native approach. This indicates a preference for technologies that are specifically designed for cloud environments, which offer even greater scalability, resilience, and efficiency.

Revolutionizing infrastructure management

Platform engineering is not just about adopting new technologies; it's about a fundamental shift in how businesses view and manage their infrastructure. By adopting platform engineering practices, businesses can enjoy:

• Faster time to market : Automated pipelines and on-demand resources enable businesses to move from concept to production more quickly.
• Increased efficiency : Resources can be provisioned and scaled as needed, reducing waste and cost.
• Higher reliability : Cloud-native solutions and microservices architectures enhance the resilience and availability of applications.
• Improved security : Consistent deployment mechanisms and infrastructure as code helps maintain security standards across the board.

As we navigate this landscape, it's evident that platform engineering is revolutionizing infrastructure management. It is not merely a trend but a paradigm shift that is redefining the very fabric of technology within businesses, setting a new benchmark for innovation, agility, and operational excellence.

Re-thinking the operating model with platform engineering

The adaptation of new technologies is a pivotal moment for rethinking operating models, particularly within the domain of cloud computing and platform engineering. Companies eager to reap the benefits of the cloud paradigm often establish a cloud center of excellence (CCoE) or cloud hub to centralize expertise and governance. However, this centralized function, while beneficial in some respects, brings with it a set of challenges that organizations must navigate to remain agile and efficient.

Centralized IT service/cloud hub as a bottleneck

The centralized cloud hub or cloud center of excellence (CCOE) has emerged as a pivotal structure within modern IT organizations. It's designed to guide and govern cloud adoption and operations. However, as the bridge between a wide array of tools and the developers who use them, this centralized function can quickly become overwhelmed, acting as a bottleneck in the flow of operations. This is especially true when there's a surge in demand for new services or when rapid feature enhancements are released by cloud providers.

Embracing platform engineering principles 

Self-service tools.

Self-service tools like Backstage are a foundational tenet of platform engineering. They empower developers by providing a user-friendly interface where they can access the entire ecosystem of tools and services without direct intervention from the central IT team. This not only accelerates development workflows but also alleviates bottlenecks caused by centralized control points.

Democratization of technology

The philosophy of technology democratization is about making tools and infrastructure accessible and user-friendly for all developers, regardless of their expertise. This involves providing sensible defaults that guide developers towards best practices while offering the flexibility to customize and scale as needed. The goal is to enable teams to make the most of technology with minimal friction, fostering innovation and agility.

Governance with security

A shift to platform engineering does not diminish the importance of governance and security; instead, it embeds these considerations into the implementation process itself. The platform should be designed to enforce policies, manage permissions and control access seamlessly. By building governance into the platform, organizations ensure that compliance is maintained without impeding the speed of development.

Workload observability

Intrinsic workload observability is another critical aspect of platform engineering. Observability should be baked into the platform from the outset, offering developers real-time insights into their applications and services. This allows for proactive monitoring, efficient troubleshooting and informed decision-making, contributing to the reliability and performance of the entire system.

By focusing on these platform engineering principles, organizations can create a robust framework that supports the rapid pace of cloud innovation while maintaining the necessary guardrails for security and compliance. This approach facilitates a dynamic and responsive IT environment that aligns with the evolving needs of developers and the business.

Take the next steps with platform engineering

Platform engineering offers a blueprint for organizations looking to modernize their IT infrastructure. These principles closely align with the needs of the developer and broader organization. As cloud technologies advance at a rapid pace, your business must adapt as well. Rackspace can help — speak to us about an ideation workshop focused on how to adopt platform engineering within your organization.

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Understanding what platform engineering is and is not.

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Paul Stovell is cofounder and CEO of Octopus Deploy .

Platform engineering is a growing practice within technology organizations, pivotal in managing application development and delivery complexity. Gartner states , "By 2026, 80% of software engineering organizations will establish platform teams as internal providers of reusable services, components and tools for application delivery."

It encompasses a broad spectrum of software delivery functions to create and maintain robust, scalable and efficient platforms for developers to build upon. With interest in platform engineering growing, now is the time to understand exactly what it is. Let's dive into the elements of platform engineering.

What Platform Engineering Is

Platform engineering has emerged to solve common problems with DevOps initiatives as they scale. Many developers today face increasing workloads and field incredible demands from other teams, all while needing to stay on top of the latest skills, technologies and techniques. At its core, platform engineering is a team structure and cultural shift used to manage complexity.

A platform team creates a self-service internal developer platform (IDP ). The IDP helps developers manage deployment pipelines, infrastructure and operations tasks. Several key components make platform engineering what it is, including:

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The first unintended consequence of ai – and it’s huge, israel s attack on iran doesn t look unprecedented, approaching platforms as products.

For platform engineering to be successful, organizations must adopt the " platform-as-a-product " mindset. Adopting a product-oriented mindset enables platform teams to address challenges in the engineering pipeline effectively. Establishing direct communication channels between platform engineers and the IDP is imperative for successful platform engineering and can serve as a crucial determinant of its success.

Developer Experience

Platform engineers create abstractions for developers, saving them from the complexities of the underlying application infrastructure. This abstraction contributes to the developer experience since developers can focus on writing code without worrying about the intricacies of hardware or software dependencies.

Automation And Tooling

Automation is a key aspect of platform engineering. Platform engineers build tools and implement processes that automate repetitive tasks, ensuring consistency and efficiency in the development and deployment pipeline. This might involve continuous integration, continuous deployment and configuration management.

Monitoring And Performance Optimization

Platform engineers set up monitoring systems to track the performance of applications and the underlying infrastructure. They analyze data, identify bottlenecks and optimize the platform for optimal performance.

What Platform Engineering Is Not

Platform engineering can be tricky to navigate and can easily be confused with other practices or elements of software delivery. Along with understanding what platform engineering is, it's important to understand what platform engineering is not.

A Shared Service

Shared services are a traditional way to centralize work and ensure a level of standardization is achieved. Typically, individuals submit tickets for an operations engineer to handle the requested work. However, this approach doesn't align with platform engineering practices. Instead, the standardization is brought to developers through self-service platforms, which include APIs and user interfaces that developers can use to trigger standard automated workflows. While a platform team may offer support for developers using the IDP, they shouldn't be set up to perform work based on tickets.

Solely IT Operations

Platform engineering goes beyond traditional IT operations. It involves strategic planning, design and collaboration with development teams to create a dynamic and efficient platform.

Exclusively About Technology

While technology is a fundamental aspect, platform engineering also involves understanding and addressing the human and organizational factors that influence the platform's effectiveness. This includes communication, collaboration and adapting to cultural shifts.

Solely About Developers

While developer experience is important in platform engineering, successful platform engineering initiatives align with the organization's broader business goals. It is not a siloed activity but an integral part of the company's strategy, involving collaboration from various teams and stakeholders across business, finance, development, security and more.

Steps Toward Platform Engineering

The introduction of platform engineering needs to be aligned to specific goals. You should have a clear idea of which pain a platform will solve before you commit to introducing an IDP. Once developers depend on a platform, you are committed to maintaining it over the long term.

The typical goals for a platform team are to reduce cognitive load for developers, increase throughput and stability, and reduce fragmentation by offering preapproved technology choices through the platform. If these aren't problems you have a burning desire to solve, adoption is likely to fail. There are also some foundations you should have in place before you invest in building an IDP.

A common path to success with platform engineering is to use existing best-in-class tools to provide the user interface and APIs for your platform. While wrapping the tools in a unified single access point may be useful later, it's not the best place to start as it may delay the return on investment.

As Team Topologies author Matthew Skelton says , "The simplest platform is purely a list on a wiki page of underlying components or services used by consuming software." The information on the page reduces how much knowledge developers need to deliver software, so they can build and deploy their applications without having deep knowledge of deployment pipelines and infrastructure as code. As the platform team works with developers to refine the elements of a golden path, a wiki page is low-cost and fast to iterate.

Once stable, the platform team can create a layer of abstraction that automates the path knowing that the development teams will use their work. This process can be repeated to build a shared understanding of other concerns, such as security, compliance and observability before encoding them in the platform.

Platform engineering is becoming a critical practice in software development, providing the foundation upon which applications are built and operated. It aims to achieve high developer satisfaction without impacting the experience for customers or the organization, all while taming burnout and solving common pain points in application development and delivery. By first understanding what platform engineering is and is not, organizations can better leverage this discipline to create resilient, scalable and innovative technology platforms.

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AI Prompt Engineering Isn’t the Future

• Oguz A. Acar

Asking the perfect question is less important than really understanding the problem you’re trying to solve.

Despite the buzz surrounding it, the prominence of prompt engineering may be fleeting. A more enduring and adaptable skill will keep enabling us to harness the potential of generative AI? It is called problem formulation — the ability to identify, analyze, and delineate problems.

Prompt engineering has taken the generative AI world by storm. The job, which entails optimizing textual input to effectively communicate with large language models, has been hailed by World Economic Forum as the number one “job of the future” while Open AI CEO Sam Altman characterized it as an “amazingly high-leveraged skill.” Social media brims with a new wave of influencers showcasing “magic prompts” and pledging amazing outcomes.

• Oguz A. Acar is a Chair in Marketing at King’s Business School, King’s College London.

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Dodgers’ Blake Treinen Making Significant Progress Toward Return to Team

While it may be a minute before seeing Los Angeles Dodgers top right-handed reliever Blake Treinen on a big league mound, he is making significant progress.

According to OC Register’s Bill Plunkett , Treinen threw to hitters earlier this week, will throw to hitters on Saturday and is expected to go on a rehab assignment next week.

“Treinen threw to hitters for the second time this week and said he is feeling no effect from the injury he suffered at the end of the Cactus League schedule. He will throw to hitters again on Saturday and is expected to go on a rehab assignment while the Dodgers are on the road next week.” — Bill Plunkett, OC Register

The Dodgers desperately need help from their bullpen, so this is an excellent sign of possibly getting back a key arm sooner rather than later. The Dodgers bullpen has been a disaster.

Entering their game on April 20 against the New York Mets, the Boys in Blue are ranked 19 in team bullpen ERA at 4.38. The bullpen has also allowed 80 hits, 47 earned runs, 14 home runs, and a 1.17 WHIP. Things haven’t been pretty for the Dodgers on that front, and it hasn’t helped that many of their key arms have missed the start of the season.

When Treinen returns, he will provide a massive boost to the bullpen. In his career as a Dodger, the 35-year-old has collected a 2.45 ERA, 113 strikeouts, 3.00 FIP, and a 1.01 WHIP in 103 innings and 104 games.

The former All-Star is still recovering from a rib injury he suffered last month during a spring training exhibition against the Texas Rangers. Early in his appearance, a hard comebacker went directly at his ribs, and he went down in pain. That is the last we see of Treinen on the mound in 2024.

Soon enough, Los Angeles should have a reliable arm out of the pen, and hopefully, all will follow suit.

Photo Credit: Brett Davis-USA TODAY Sports

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Elon Musk reflects on parenting as '18 years of prompt engineering'

"Be super careful about what schools teach your kids," Musk advised, underscoring his belief in the importance of education.

• Updated Apr 17, 2024, 1:37 PM IST

Renowned entrepreneur Elon Musk, the driving force behind companies like Tesla and SpaceX, offered insights into parenting on Wednesday, likening the process to "18 years of prompt engineering."

In a candid post on X.com, Musk shared his realization, stating, "Whoa, I just realised that raising a kid is basically 18 years of prompt engineering." Musk, a father of 11 children, has previously expressed the view that "having children is saving the world."

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• Elon Musk's X bans over 2 lakh accounts for policy violations in India in March

Addressing queries from his followers, one user sought advice ahead of their first child's birth next month. Musk's response? A cautionary note on the role of schools in shaping young minds.

This is not the first time Musk has challenged conventional notions of learning. He has previously questioned the value of traditional education, suggesting that colleges primarily serve as social experiences rather than centres of genuine learning.

In a video statement, Musk remarked, "You don’t need college to learn stuff. Everything is available basically for free. You can learn anything you want for free." He emphasised that while degrees may signify completion, they do not necessarily reflect true understanding.

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