physics ia research question ideas

IB Physics IA Ideas (25+ topics) - Inclusive Of Topics Your Teachers Won't Discuss!

Score top marks on your IB Physics IA with these 25+ expert-approved ideas. Unlock your full potential and get that sweet 7 with ease!

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Ib physics ia ideas - thermal physics , ib physics ia ideas - mechanics, ib physics ia ideas - waves, ib physics ia ideas - electricity and magnetism, below are some more wonderful physics ia ideas to get your thinking caps on , want to score a seven in your ib physics ia .

Cracking the IB Physics IA can seem like a challenging task from afar, but like any other assessment, only the beginning is the hardest.

Frantically looking for IA IB physics ideas can be taxing and quite a struggle.

By the time your mind races from Aerodynamics to Relativity, you have most likely crossed the scope of the syllabus and have gotten yourself in quite a pickle!

There are several fascinating topics to explore, but not all are lucid enough for you to undertake. It becomes imperative to rule out big ideas smartly instead of opting for specific, more relevant ones. 

The primary focus of your IB Physics IA should be on applying your scientific thinking to explore concepts you have learned before and document them accordingly. Going for a completely new topic is a bit daunting and can leave you all the more confused. And who wants confusion regarding IB Physics IA or any other Internal Assessments?

Your IB Physics IA topic is the stepping stone toward nailing your Physics IB score, which is why learning the entire process is more crucial than ever. You can take up a novel idea to outshine everyone. Approach it conventionally to perform to your best capacity. There is no need to panic, but you sure don't have to put the IB Physics IA selection procedure on the backburner!

To kickstart your search for the best-suited IB Physics IA idea, this is precisely where you should be!  

This gets us to tackle the question of your IB Physics IA topic's role in getting you your dream score. First and foremost, the marking scheme entails the Personal Engagement criterion, which marks you on your IA research question choice. Your Physics IA idea (i.e., your research question) only  makes up 0.8%  of your complete Physics IA.

[SO, STOP WORRYING ABOUT IT A LOT!!!]

Opting for a tried and tested Physics IA topic ensures you are dealing with a simple idea that leaves no room for confusion.

A standard and conventional IB Physics IA idea increases your chances of scoring higher and cuts down on the substantial research you would be required to do for an original topic.

Besides, a standard IB Physics IA idea also determines your overall performance since an IA idea that covers the concepts you're already familiar with determines your understanding of the question you wish to answer through your IB Physics IA. This helps you take more interest, research better, and ultimately score better.

Choosing a topic wisely, therefore, is of much importance. It is always advisable to filter down your interests to ideas relevant to your course, and voila!

There you have a great IB Physics IA topic to begin with! 

Still, trying to figure out what IB Physics IA idea to opt for?

No problem!  Nail IB  has got you covered!

Before you browse further, you might want to check out our blog on   IB Physics IA : 3 Important Tips for a Good Grade  to understand in-depth the difference between Experiment and Simulation-based topics. This will assist you in selecting effectively!

Here's an assortment of  25+ IB Physics IA  ideas to get the IA ball rolling:

Calculating the specific heat capacity of a liquid material of your choice!  (Experiment Based)

• Record the temperature of the liquid material with a thermometer by providing heat to the liquid in an electric heater. 
• Plot the temperature in intervals by providing varying heat, and the slope of the graph must give you the value of 1/mc.

Investigating the Ideal Gas Law using a simulation of a gas:  (Simulation-Based)

• Simulate a gas in a fixed container with the particles confined in space.
• To investigate whether the Gas Law holds for these gas particles, create a simulation that varies two variables out of P, V, and T, and see the effect on the third one.
• Finally, obtain graphs of P v/s T, V v/s T, and P v/s V. Verify. 

Change in the rate of evaporation of water with a change in surface area:  (Experiment Based)

• To observe a relationship, plot the varying vaporization times involved with containers of different cross-sectional areas.

Investigating to what extent salt concentration affects the specific heat of the water.  (Experiment Based) ​​​​​​

Projectile Motion:

Finding how the rotational velocity affects the horizontal travel distance of a basketball in free fall.  (Simulation-Based) 

• Take into consideration the three separate forces acting on the ball during the travel, namely - Gravitational force, Air Drag, and Magnus Effect- and how they depend on parameters like velocity, rotational velocity, and the radius of the ball to simulate a project for numerical approximations and establish relations from data.

Finding the coefficient of static friction between the two materials. (Experiment Based)

• Plot an F(maximum frictional force) versus R(reaction force) graph by recording the total force needed to be applied for F and the weight of the material on top for R and obtain μ from the gradient. 

Dependence of Air Resistance on the surface area of spherical balls.

Effect of Temperature on Spring Constant. (Experiment Based) 

• ​​​​​​​ Record the force applied on a spring with the help of a force sensor and accurately measure the extension with a ruler.
• Plot F v/s x graphs for different temperatures and compare their gradients (Spring Constants) to infer a conclusion. 

Investigating Archimedes’ principle and determining the value of g.

• Use water or any liquid with a known density and a force sensor to measure the buoyant force.
• Plot an F-V curve by submerging different objects, and the slope thus obtained should be ρg .

How does the concentration of D-Sucrose affect the Viscosity of a solution?

• Find an appropriate method to find Viscosity after preparing and accurately determining the concentration of D-Sucrose in a solution. 

Effect of temperature and other physical parameters on the Viscosity of fluids. 

Determining the specific energy of different materials.

• ​​​​​​​ Plot energy against mass to obtain specific power as the gradient. The different values of energy and mass can be obtained by taking other materials and burning them to heat water. The water temperature thus recorded can be used to determine the energy supply by the material’s burning.

How does the frequency of a simple pendulum vary with string length and diameter?

• Plot Frequency versus String Length graph for different pendulums of varying lengths by recording their frequency with a timer. 
• Plot Frequency versus String Diameter graph similarly for different pendulums of varying diameters by recording their frequency with a timer.

How does the air drag coefficient affect the period of a pendulum undergoing damped simple harmonic oscillations?

Investigating how the refractive index of a liquid varies with temperature.

• Plot the Refractive Index v/s Temperature graph for different liquid temperatures by using Snell’s Law to calculate the Refractive Index. 

To what extent does the angle of Incidence of p-polarized Light affect the reflectivity and transmissibility?  

How does the Intensity of a Light source vary with Distance? 

• Plot the Intensity of a Light source v/s r ^ -2 to find the gradient P/4π, where P is the Power of the Light Source. The graph thus obtained establishes how Intensity varies with Distance.

Verifying Ohm's Law for different electrical components.

• Plot V-I Graphs for different resistors, thermistors, etc., by varying the voltage via a voltmeter in a circuit and correspondingly noting the change in the current with the help of an ammeter, also connected to the course. 
• A linear curve verifies Ohm's Law.

To what extent does temperature affect the total available Energy in secondary cells?

Investigating the relative permeability of air by varying the solenoid's current and measuring the resultant magnetic field. 

Determining how the current is magnetically induced in a solenoid depends on the number of coils.

Calculating the time constant of a Capacitor.

• Plot the voltage or current change with time for a discharging capacitor through a resistor.
• Make sure either relationship follows an exponential curve to positively calculate the time constant of the Capacitor.

Calculating the work function of metals.

• Plot an E (Kinetic Energy of electrons) v/s f (frequency of light source) graph. Thus, the y-intercept is the negative value of the metal's work function. 

Investigating the relation between temperature and the efficiency of a transformer.

• How does the speed of sound in a material vary with temperature?
• How does the angle of the initial release of a pendulum affect the subsequent calculation of ‘g’ from the pendulum?
• What is the relationship between the spacing of consecutive dominoes and the effective speed of the domino effect?
• How does the emf produced by rotating coils depend on the rotational speed?
• How does the frequency of oscillation of an object on a spring rely on the mass of the object?
• How does the temperature of a lubricant affect the coefficient of dynamic friction?
• Use a computer simulation to calculate the charge of an electron.
• Investigate the range of projection of a shuttlecock in terms of its cross-sectional area. 

The first step towards that goal is selecting a precise topic where you don't go about inventing a concept.

You must use your classroom knowledge to your advantage and use the available resources!

An excellent mathematical model will work wonders in your experiment-based topic and help you develop a focused question that you will cater to in your IA.

Your crucial takeaway must be to go for something standard and tested instead of an out-of-the-box idea. 

Remember to checkout out our  IB Physics HL Notes , specifically created to help students score well in their diploma program.

• For a clearer perspective on the entire IA assembling process, check out more blogs on  Nail IB  and hustle towards success! 

IB Resources you will love!

35 IB Physics IA Ideas: Simple and Score High Marks

• Use different lengths of string and record the period of the pendulum swings for each
• A good technique for this would be to record the time for 5 periods then divide it by 5

Looking at how the intensity of a light source varies with distance

• You need a light source of constant power, a photometer or similar device, and a long bench
• Take measurements of the intensity of the light source at various distances away from it
• Graphing  I against r^-2  should give the gradient P/4π  where  is the power of the light source

How does the concentration of sucrose in a water solution affect the refractive index of the water?

• Fill a container with water in a bright room and shine a weak laser at it such that you can determine the angle of deflection due to the body of water
• Gradually fill the water container with sucrose, calculating the concentration each time, and measure how the deflection changes
• Plot these variables against each other to see if there is a relationship

Investigating how the frequency of a simple pendulum varies with string length

• Record the frequency of a simple pendulum, for example by counting how many oscillations it completes in 10 seconds
• Do this for pendulums of different string length
• Plot frequency against string length to see if there is a relationship

How does the frequency of oscillation of an object on a spring depend on the mass of the object?

• Attach a block of known mass to a spring and extend it on a slippery horizontal surface such that it starts oscillating
• Record the frequency, for example by counting how many oscillations it completes in 10 seconds
• Repeat this for blocks of different mass

Investigating how the refractive index of a liquid varies with temperature

• Fill a container with a given liquid, e.g. water
• Use a weak laser in a dark room to see how the angle of the light path changes as it passes through the liquid
• Hence use Snell’s law to calculate the refractive index
• Now use an electric heater to increase the temperature of the liquid – record this and repeat the measurement for different temperatures
• Plot the refractive index against the temperature to see if there is a relationship

How does the fundamental frequency of a standing wave on a string vary with string length?

• An example of this would be a guitar string, where “plucking” the string gives the fundamental frequency
• Use equipment such as a slow-motion camera to record the period of the string oscillation, and hence find the frequency
• Do this for strings of different lengths (always fixed at either end), and plot a graph to see if there is a relationship between frequency and length

Investigating the relation between temperature and speed of sound in a material (you choose the material!)

• Choose a material where sound can travel through, and which you a large enough sample of that sound diffracting around it will be negligible
• It also needs to be long enough for sound to take a measurable time to travel through it
• Use an oscilloscope or computer software that allows you to find the time taken for sound from a given source to travel between two microphones
• Put the microphones on either side of the material, measure the separation and hence find the sound speed
• Heat up the material, record its temperature and repeat the experiment
• Plot speed against temperature to see if there is a relationship

Investigating Snell’s law for more than one refraction at a time

• Put samples of two or more transparent materials (e.g. glass and water) next to each other and shine a weak laser through both
• Use Snell’s law for multiple refractions to determine the expected relationship between the entering and exiting angles of the light beam
• Repeat the experiment for a variety of angles and plot the result to see if the relationship holds

What is the relationship between the width of interference maxima and the number of slits illuminated in a diffraction grating?

• Use a diffraction grating and a stationary flashlight
• Move the flashlight closer or further away from the grating such that different numbers of slits are illuminated – calculate the number by measuring the fraction of the grating that is covered by light
• Use a piece of paper or a white wall to see the interference maxima, and measure their width using a ruler
• Plot maximum width against number of slits illuminated to see the relationship

ELECTRICITY AND MAGNETISM IB Physics IA ideas

Testing Ohm’s law for different electrical components

• Use components such as resistors, filament lamps, thermistors, and others that you would like to test
• Build a circuit containing a voltmeter and ammeter, and where you can toggle the voltage
• Record how the current changes as you change the voltage
• Plot the results for each component; if the V-I curve is linear, the component follows Ohms law and the gradient is R
• For the components that don’t follow Ohm’s law, try to fit other relationships

Finding the resistivity of a metal (you choose the material!)

• Choose a metal where you have access to several samples of similar shape but different lengths and/or cross-sectional areas
• Place one sample in the circuit at a time and record how the current changes with voltage – when you plot these against each other the resistance is the gradient of the graph
• After having done this for every sample, plot their resistances as a function of length and/or cross-sectional area (one at a time, keeping the other one constant) and use the relationship  R=ρL/A  to find the resistivity

How does the efficiency of an electric motor depend on temperature?

• Use a small electric motor for a task where you can calculate the energy output, e.g. lifting something up
• Feed the motor with electric power and calculate the efficiency it has with completing the task
• If you repeat this many times the motor will heat up due to energy lost to inefficiencies
• Record its temperature and see how its efficiency changes for a range of temperatures

How does the emf produced by rotating coils depend on the rotational speed of the coils?

• Do this only if your school has access to a permanent magnet large enough to create a constant and uniform magnetic field
• Connect a conducting coil to a voltmeter and a mechanism where you can rotate the coil at a desired speed (either by hand or electronically)
• Record how the peak readings of the voltmeter changes with rotational speed of the coils
• Predict the relationship theoretically using Faraday’s law, then plot your data to see if you get the same result

Finding the work function of metals

• You need a thin metal plate connected to an ammeter and EM wave sources/lasers with a wide range of available frequencies
• Record the maximal current produced when light of different frequencies is shone onto the plate, and relate this to the kinetic energy of the electrons
• On a graph of E against f, the y-intercept should be the negative of the metal’s work function

Investigating the relation between temperature and the efficiency of a transformer

• Calculate the efficiency of a small transformer by feeding it with current and measuring the output current using an ammeter
• If you repeat this many times the transformer will heat up due to energy lost to inefficiencies

How does the power output of a solar cell vary with thickness of cellophane laid over it?

• Choose a sunny day and bring a small solar cell out in the open
• Record the current or power output of the cell, and re-do the recordings while you continuously put thin layers of cellophane on top of the cell
• Plot the power output against thickness after you are done to see if there is a relationship

Finding out how the current magnetically induced in a solenoid depends on the number of coils

• Move solenoids with different numbers of coils through the magnetic field at the same speed and record the current produced in them using an ammeter
• Plot peak current against number of coils to see if there is a relationship

Investigating the efficiency of a diode rectifier as a function of temperature

• Build a diode rectifier circuit and investigate its efficiency by measuring the current ahead of and beyond the diode using ammeters
• If you leave the circuit for a while the diode will heat up due to energy lost to inefficiencies

Finding the internal resistance of a battery

• Construct a simple circuit containing a battery and a variable resistor
• Use an ammeter to measure the current and a voltmeter to measure the terminal potential difference for different values of resistance
• According to the relationship  V=ε-Ir , if you plot  V against I the gradient should be  -r where  r is the internal resistance

Finding the time constant of a capacitor

• Fully charge a capacitor by connecting it to a cell or battery, then disconnect the cell or battery and let the capacitor discharge through a resistor
• Measure either how the voltage changes with time using a voltmeter or how the current changes with time using an ammeter

So there we have it, 35 IB Physics IA ideas guaranteed to get you off on a great start.

Still not sure how to approach your IA as a whole?

Check out our comprehensive Physics IA guide  which gives you a step-by-step walkthrough!

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70+ IB Physics IA Topics and Research Questions

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• Writing Metier

Hey there, fellow IB Physics enthusiasts! I know that the world of Physics IA topics can be overwhelming, but worry not! I’m here to walk you through a handpicked selection of IA topics and research questions that will pique your interest and score impressive marks. 

No more long, boring introductions that have nothing to do with what you are here for. Let’s get straight to it, shall we?

Physics IA Topic Ideas and Research Questions

Mechanics and energy topics.

1. Angular Momentum

How does the angular momentum of a rotating object change with its mass distribution?

2. Energy Conservation in Simple Harmonic Motion

How is energy conserved in a simple harmonic oscillator, and how does the mass of the oscillator affect this?

3. Centripetal Force in Circular Motion

How does the radius of a circle affect the centripetal force required to keep an object in circular motion?

4. Efficiency of Machines

How does the efficiency of a simple machine (like a pulley) vary with the load applied?

5. Air Resistance and Terminal Velocity

How does the shape and size of an object affect its terminal velocity when falling through air?

6. Elastic and Inelastic Collisions

How does the type of collision (elastic vs inelastic) affect the conservation of momentum?

7. Buoyancy and Archimedes’ Principle

How does the shape of an object affect the buoyant force acting on it?

8. Pressure in Fluids

How does the depth of a fluid affect the pressure exerted at that depth?

Thermal Physics Ideas

9. Heat Transfer and Insulation

How does the type of material affect the rate of heat transfer through conduction?

10. Thermal Expansion

How does the coefficient of linear expansion vary for different materials?

11. Heat Engines

How does the efficiency of a heat engine vary with the temperature of the heat source?

12. Phase Changes and Latent Heat

How does the rate of phase change in a substance relate to the amount of latent heat supplied?

13. Blackbody Radiation

How does the intensity of blackbody radiation vary with temperature?

14. Thermodynamics of Gases

How does the pressure of a gas change with its volume (investigating Boyle’s law)?

15. Heat Capacity of Solids

How does the heat capacity of a solid vary with its mass and composition?

16. Radiative Heat Transfer

How does the distance between objects affect the rate of radiative heat transfer?

Oscillations and Waves Topics

17. Sound Waves and Resonance

How does the frequency of a sound wave affect the resonance in a closed tube?

18. Wave Speed and Medium

How does the speed of a wave vary with the properties of the medium through which it travels?

19. Interference Patterns

How does the spacing between slits affect the interference pattern produced in a double-slit experiment?

20. Doppler Effect

How does the speed of a source affect the observed frequency (investigating the Doppler effect)?

21. Polarization of Light

How does the angle of incidence affect the polarization of light passing through a polarizing filter?

22. Standing Waves

How does the length of a string affect the formation of standing waves?

23. Wave Reflection and Transmission

How does the angle of incidence affect the reflection and transmission of waves at a boundary?

24. Harmonics in Musical Instruments

How do different musical instruments produce harmonics, and how does this relate to the quality of sound produced?

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Electricity and Magnetism Ideas

25. Magnetic Fields and Currents

How does the magnitude of a current affect the magnetic field produced around a wire?

26. Capacitance and Dielectrics

How does the type of dielectric material affect the capacitance of a capacitor?

27. Electromagnetic Induction

How does the rate of change of magnetic flux affect the induced electromotive force?

28. Electric Fields

How does the arrangement of charges affect the electric field produced in a region?

29. Faraday’s Law

How does the number of turns in a coil affect the induced voltage according to Faraday’s law?

30. RC Circuits

How does the resistance and capacitance in an RC circuit affect the time constant of the circuit?

31. Magnetic Forces on Moving Charges

How does the velocity of a charged particle affect the magnetic force experienced in a magnetic field?

32. Electromagnetic Waves

How does the frequency of an electromagnetic wave affect its propagation through different mediums?

Modern Physics IA Topics

33. Photoelectric Effect

How does the frequency of incident light affect the kinetic energy of emitted electrons in the photoelectric effect?

34. Nuclear Decay

How does the half-life of a radioactive material relate to the number of nuclei present?

35.Quantum Tunneling

How can quantum tunneling be demonstrated and what are its implications in modern technology?

36. Special Theory of Relativity

How does the special theory of relativity explain the behavior of objects moving at high speeds?

37. Quantum Entanglement

How can quantum entanglement be demonstrated, and what are its implications for modern physics?

38. Fusion and Fission

How do nuclear fusion and fission processes release energy, and how can this be measured?

39. Particle Physics

How can the properties of fundamental particles be investigated using particle accelerators?

40. Cosmology and the Big Bang Theory

How does the Big Bang theory explain the origin and evolution of the universe?

Optics and Light Physics Topics and RQs

41. Refraction and Snell’s Law

How does the angle of incidence affect the angle of refraction in various mediums?

42. Diffraction Patterns

How does the width of a slit affect the diffraction pattern observed on a screen?

43. Fiber Optics

How does the angle of light entry affect the total internal reflection in a fiber optic cable?

44. Polarization of Light

How does the angle of a polarizing filter affect the intensity of transmitted light?

45. Lenses and Focal Length

How does the curvature of a lens affect its focal length and image formation?

46. Color and Wavelength

How does the wavelength of light affect the perceived color?

47. Laser Light Properties

How does the coherence of laser light affect its behavior in various experiments?

48. Light Intensity and Inverse Square Law

How does the distance from a light source affect the intensity of light, and how can this be used to verify the inverse square law?

Astrophysics and Cosmology IA Ideas

49. Hubble’s Law and the Expanding Universe

How does Hubble’s law provide evidence for the expansion of the universe?

50. Stellar Spectroscopy

How can the composition of stars be determined through spectroscopy?

51. Galactic Rotation Curves

How do galactic rotation curves provide evidence for the existence of dark matter?

52 Solar Activity and Earth’s Climate

How does solar activity, such as solar flares and sunspots, affect Earth’s climate?

53. Exoplanets and Habitability

How can the habitability of exoplanets be assessed based on their atmospheric composition and distance from their star?

54. Cosmic Microwave Background Radiation

How does the cosmic microwave background radiation provide evidence for the Big Bang theory?

55. Gravitational Waves

How have gravitational waves been detected, and what do they reveal about the events that produced them?

56. Dark Energy and the Fate of the Universe

How does the concept of dark energy explain the accelerated expansion of the universe, and what implications does this have for the fate of the universe?

If you require expert physics paper writing assistance , Writing Metier is always ready to help.

Quantum Mechanics Topics

57. Quantum Superposition

How does the principle of superposition explain the behavior of particles in quantum mechanics?

58. Quantum Entanglement

How can quantum entanglement be experimentally demonstrated, and what implications does it have for information transfer?

59. Quantum Tunneling

How can quantum tunneling be demonstrated in a laboratory setting, and what are its applications in modern technology?

60. Wave-Particle Duality

How does the double-slit experiment demonstrate the wave-particle duality of light and matter?

61. Quantum Computing

How does quantum computing leverage the principles of quantum mechanics to enhance computational power?

62. Heisenberg Uncertainty Principle

How does the Heisenberg uncertainty principle limit the precision with which certain pairs of physical properties can be simultaneously known?

63. Quantum Teleportation

How does quantum teleportation work, and what are its potential applications?

64. Quantum Cryptography

How does quantum cryptography enhance the security of information transmission?

Environmental Physics IA Topics and RQs

65. Climate Change and Greenhouse Effect

How do greenhouse gases contribute to climate change, and what experimental evidence supports this?

66. Renewable Energy Sources

How can the efficiency of renewable energy sources, such as solar and wind power, be maximized?

67. Energy Conservation in Buildings

How does the design of buildings affect energy consumption, and what strategies can be employed to minimize energy use?

68. Physics of Earthquakes

How can the principles of physics be applied to understand the mechanisms of earthquakes and to develop strategies for minimizing their impact?

69. Oceanography and Sea Level Rise

How does the melting of polar ice caps contribute to sea level rise, and what are the potential impacts on coastal regions?

70. Atmospheric Physics

How do physical processes in the atmosphere influence weather patterns and climate?

71. Physics of Recycling

How can the principles of physics be applied to enhance the efficiency of recycling processes?

72. Noise Pollution and Acoustics

How does noise pollution affect the environment and human health, and what strategies can be employed to mitigate its effects?

Enough for today?

As you approach your IB Physics IA, it’s evident that physics encompasses a broad spectrum of topics ripe for exploration. 

Each category we’ve outlined offers a distinct avenue to investigate the complex and fascinating principles that govern our universe. I tried to provide a list that will be suitable for various IB subject combinations with your IA in Physics.

Whether your preference leans towards the intricacies of quantum mechanics or the grandeur of astrophysics, a research question awaits your scrutiny and analysis. 

More simillar articles with IA topic suggestions:

• Global Politics IA Ideas
• Math IA Topic Ideas
• Math AA Topics
• Bio IA Ideas
• Biology Research Paper Topic Ideas
• Chemistry IA Topics
• Economics IA Topic Ideas
• Business IA Ideas
• Business IA Topics
• Physics EE Topic Ideas

Now is the moment to engage fully with a project that aligns with your academic interests and aspirations.

Wrapping Up

We have now covered a wide range of potential topics and research questions for your IB Physics IA. The next step is yours to take. Remember, the most impactful projects stem from a genuine interest and a deep-seated curiosity about the chosen topic. 

Your dedication and enthusiasm for your selected topic will naturally translate into a rewarding and successful project. I wish you a productive and insightful experience in the captivating field of physics. 

Need a Dope Paper Written? We've Got Your Back!

And if you need assistance with topic selection or writing a custom Physics IA, Writing Metier is here to land you a hand!

Free topic suggestions

Vasy kafidoff.

Vasyl Kafidoff is a co-founder and CEO at WritingMetier. He is interested in education and how modern technology makes it more accessible. He wants to bring awareness about new learning possibilities as an educational specialist. When Vasy is not working, he’s found behind a drum kit.

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