IB Physics EE examples
Filter exemplars, to what extent does the tension being applied on a wire affect the resonance frequency, to what extent does electromagnetic interference affect the performance of computer devices and what are the mitigation strategies that can be applied, want to get full marks for your ee allow us to review it for you 🎯, how does varying the magnetic field strength and the power input of a dc motor affect its rotational speed, to what extent does the angle of attack of the fins (0°, 3°, 6°, 9°, 12°) of a moving projectile affect its lateral distance (range) and apogee (maximal height), if initial velocity (2.7 m/s), shape, angle (60°), and launch environment are kept constant, how does the total energy supplied during ultrasonic cavitation of benzene affect the integrated photoluminescence intensity and quantum yield of graphene quantum dots (gqds), fast track your coursework with mark schemes moderated by ib examiners. upgrade now 🚀, how is the lift at various angles of attack affected by flap deflection angles, fluid’s density effect on falling objects, what is the relationship between the height of the siphon and the flow velocity out of the siphon, what effect does the difference in radius at the top and bottom of the roller coaster loop have on the maximum change in g-force that a passenger experiences, how does altering the curvature of an aircraft wing function to reduce aerodynamic drag and thus aircraft greenhouse emissions, how does increasing the angle of a simple pendulum affect its time period, how do changes in viscosity of fluid affect the speed and amplitude of surface waves that are generated by an impact of spherical object, how do the angular momentum and orbital velocity affect the eccentricities of planetary orbits, an investigation into the physics of toroidal banked turns, to what extent do the properties of delta cephei compare to those of the sun, how does the velocity of a bicycle on a flat horizontal surface affect its stability, what is the effect of initial angular velocity and the number of cuts on an aluminium disc, towards the time for an electromagnetic brake to completely stop, and its experienced braking force due to formation of eddy currents, how does angular velocity of a bicycle wheel affect its stability , to what extent do various mathematical models effectively predict the trajectory of a projectile, accounting for factors such as air resistance and drag, to what extent does the relationship between the velocity of a spacecraft in orbit and its propulsion efficiency attribute to the oberth effect in the context of space exploration, what is the effect of modifying parameters (span and sag) of a hanging chain on the tension it experiences at its ends, how does the downforce generated by an inverted naca 6412 aerofoil compare to an upright naca 6412 aerofoil at varying angle of attack and wind speed, to what extent does the temperature affect the magnetic field, hence the pole strength of a permanent magnet by applying tangent’s law, is there an optimal ratio between the length l1 (the length from the projectile to the fulcrum) and the length l2 (the length from the fulcrum to the right end of the central arm) of a seesaw trebuchet that yields the highest initial velocity of its projectile, to what extent does drag affect the angle of elevation which produces the maximum range (horizontal displacement) for a projectile, ¿cómo afecta la temperatura del medio en la velocidad de propagación del sonido en el aire, what effect do mass, radius and length have on the moment of inertia of a cylinder being rotated about its central diameter, what is the critical reynolds number for water flow through a pipe, how does the angle of attack and flap angle of a naca2412 airfoil affect the coefficient of lift generated, investigación sobre el movimiento giroscópico de una peonza y su estabilidad dependiendo de la velocidad de rotación., to what extent do cloud chambers effectively display subatomic particles and the fundamental interactions in the surrounding environment, what is the relationship between the critical air speed required to blow a bubble and the radius of the wand forming it, what is the effect of manipulating the coefficient ’a’ of the parabolic function ax2 on the intensity of the light reflecting off a parabolic object, emitted from set different angles (0°, 15°, and 30°), how does strain rate affect the true stress and true strain of aluminium, steel and polystyrene subject to uniaxial tension, can the relationship between drag and velocity, r=bv^2, be proved experimentally by finding the constant of proportionality (25/34), can the technology currently under development for wireless power transfer provide a viable and efficient method for delivering electrical power to a wide range of home and industrial applications, “how does the length of a u folded metallic chain with one end fixed affect the time taken for it to unfold under the influence of gravity”, quel est l'effet de la masse et de la pression initiale sur la portée d'une fusée à eau, can we validate the conclusions from the 1919 dyson & eddington total solar eclipse expedition through data analysis of succeeding total eclipse expeditions, how does the phase of argon crystal (density, volume, length and msd) change as the crystal is monotonically heated in the temperature range from 50 to 150 kelvins.
IB Extended Essay Topics: Physics
Stepping into the International Baccalaureate (IB) Diploma program is a significant milestone, and choosing the right Extended Essay topic in Physics can be exciting and daunting. From my years of experience as an IB educator and essay advisor, I’ve seen firsthand how the choice of topic can affect a student’s research. Therefore, in this article, I aim to share insights and ideas on topics for the IB DP Physics Extended Essay.
Understanding the IB Physics Extended Essay
The IB Physics Extended Essay is an independent, self-directed piece of research that culminates in a 4,000-word paper required for the International Baccalaureate Diploma Programme.
According to the IB criteria, this significant academic task involves students independently researching a topic that sparks their interest in IB DP Physics. It’s an excellent opportunity to investigate a question that captivates you and apply theoretical concepts to practical situations.
The primary aim is not merely to produce an essay but to engage in an exhaustive study showcasing your grasp of physics and enthusiasm for the subject. Now, let’s consider the following aspects of the IB Physics Extended Essay:
- Scope of Research . It’s essential to select a topic that allows for an in-depth investigation within the constraints of the available resources and the word limit.
- Application of Theory . The essay should demonstrate how physics theories and concepts can be applied to analyze a specific problem or question.
- Methodology . A clear and systematic approach to conducting your research is critical. It involves choosing appropriate methods for data collection and analysis.
- Critical Thinking . Throughout your essay, you should critically evaluate the information, data, and methodologies used.
- Creativity and Originality . Finding innovative ways to approach your topic can set your essay apart. It’s about posing new questions, exploring novel perspectives, or applying theories in unique contexts.
- Structured Argument . Your essay should present a coherent argument supported by evidence, leading the reader through your findings to a logical conclusion.
- Reflection . Reflecting on what you have learned from the research process and how it has affected your understanding of the subject area is a valuable component of the essay.
Remember, the goal is not just to write an essay but to engage in a thorough investigation demonstrating your understanding and passion for the Physics course.
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Physics Extended Essay Topics and Research Questions
Let’s talk about some potential extended essay topics in Зhysics. Quantum mechanics, with its paradoxes and mysteries, offers a rich vein of questions to explore. Additionally, investigating the principles of relativity in everyday phenomena can provide a relatable yet profound topic. Renewable energy projects are increasingly relevant and offer a plethora of research opportunities. Lastly, the vastness of astrophysics allows for endless curiosity and exploration, from black holes to the cosmic microwave background.
The best topics for an IB Physics Extended Essay allow you to explore areas where you can apply physical principles, theories, and experimental investigations to answer complex questions. Here are some ideas:
- The Effect of Winglet Angles on Aircraft Efficiency . How do variations in winglet angles on a model aircraft wing affect its lift-to-drag ratio during flight?
- Investigating Solar Panel Orientation for Optimal Power Generation . How do different solar panel orientations and angles impact power output in a specific geographic location?
- Analyzing the Efficiency of Magnetic Levitation in Reducing Friction . How does the use of magnetic levitation affect the frictional forces on a miniaturized model of a maglev train?
- The Physics of Greenhouse Gases and Climate Change . How do different carbon dioxide concentrations affect infrared radiation absorption in a controlled environment?
- Exploring the Properties of Non-Newtonian Fluids under Stress . How does the application of varying stress levels affect the viscosity of a non-Newtonian fluid, such as a cornstarch and water mixture?
- The Role of Antenna Design in Enhancing Wireless Communication . How does the design of a DIY antenna affect the strength and range of wireless signals it receives?
- The Impact of Crater Size on Meteorite Impact Simulations . What relationship exists between the size of a projectile and the crater it creates in sand, simulating meteorite impacts?
- Studying the Effects of Temperature on the Elasticity of Rubber Bands . How does changing the temperature affect rubber bands’ elasticity and tensile strength?
- Investigation into the Optimal Conditions for Hydrogen Fuel Cell Efficiency . Under what conditions does a homemade hydrogen fuel cell operate most efficiently in terms of voltage output?
- Analyzing the Effectiveness of Different Types of Insulators in Minimizing Heat Loss . How do various household materials compare to thermal insulators in preventing heat loss from a container?
- The Physics Behind Efficient Bicycle Gear Ratios . How do different gear ratios affect cyclists’ efficiency and energy expenditure under various conditions?
- Exploring the Influence of Mirror Shape on the Focal Point of Solar Collectors . How does altering the shape of reflective mirrors affect the concentration and temperature at the focal point of a solar collector?
- Investigating the Relationship Between Electric Motor Speed and Load . What is the relationship between the load applied to an electric motor and its rotation speed?
- The Effect of Blade Design on Wind Turbine Efficiency . How does the blade design of a model wind turbine affect its power output under controlled wind conditions?
- Studying the Propagation of Sound Waves in Different Mediums . How do sound waves propagate in various mediums, and how does the medium affect the speed and attenuation of sound?
- The Dynamics of Pendulum Motion in Non-Uniform Gravitational Fields . How does the length of a pendulum affect its period in regions with varying gravitational strengths?
- Investigating the Effects of Surface Roughness on Solar Panel Efficiency . How does the surface roughness of photovoltaic solar panels impact their efficiency in converting sunlight to electricity?
- The Physics of Ice Skating: Friction and Temperature . What is the relationship between the ice’s temperature and the friction coefficient encountered by an ice skate?
- Evaluating the Impact of Air Resistance on Projectile Range . How do the shape and size of projectiles affect their range in the presence of air resistance?
- The Efficiency of Piezoelectric Materials in Energy Harvesting . How effective are different piezoelectric materials in generating electricity from mechanical stress?
- Thermal Conductivity and Building Materials: A Comparative Study . How do different building materials compare in terms of thermal conductivity and energy efficiency in a model house?
- The Effect of Altitude on the Boiling Point of Water . How does changing altitude affect the boiling point of water, and what implications does this have for cooking at high elevations?
- Optimizing the Design of a Parabolic Solar Heater . What is the most efficient design for a parabolic solar heater when considering the focal point and surface area?
- The Role of Resonance in Bridge Oscillations: A Historical Analysis . How have instances of resonance-induced oscillations in bridges influenced modern bridge design?
- Investigating the Photoelectric Effect in Different Metals . How does the photoelectric effect vary across different metals, and what does this reveal about their electronic structure?
- The Physics of Musical Instruments: String Tension and Pitch . How does the tension of strings on different musical instruments affect the pitch and quality of the sound produced?
- The Efficiency of Vertical vs. Horizontal Wind Turbines . Which vertical or horizontal orientation is more efficient for wind turbines in urban settings?
- The Impact of Battery Temperature on Electric Vehicle Performance . How does the operating temperature of batteries affect the performance and range of electric vehicles?
- Studying the Refractive Index of Various Liquids Under Temperature Changes . How does changing the temperature of different liquids affect their refractive index?
- The Physics of Archery: Arrow Dynamics and Material Science . How do an arrow’s material properties and design affect its flight dynamics and accuracy?
- Analyzing the Radiation Shielding Properties of Martian Regolith . Could Martian regolith be effectively used to shield habitats on Mars from radiation?
- The Influence of Magnetic Fields on Plant Growth . How do varying magnetic field strengths affect certain plants’ growth rate and health?
- The Acoustic Properties of Concert Halls . What architectural features contribute most significantly to the acoustic quality of concert halls?
- The Effectiveness of Heat Sinks in Electronic Devices . How do different materials and designs of heat sinks affect the thermal management of electronic devices?
- The Correlation Between Solar Flare Activity and Earth’s Climate . Is there a significant correlation between periods of increased solar flare activity and changes in Earth’s climate patterns?
- The Impact of Wind Turbine Design on Bird Populations . How does the design of wind turbines affect bird mortality rates, and what design modifications can reduce these impacts?
- The Physics of Long-Distance Space Travel: Propulsion Systems . What are the most promising propulsion systems for long-distance space travel, and how do they compare in terms of efficiency and feasibility?
- Optimizing Refrigeration Techniques Using Thermoelectric Coolers . How effective are thermoelectric coolers in small-scale refrigeration applications compared to traditional cooling methods?
- The Physics of Glaciers: Understanding Ice Flow and Melting Patterns . How do the physical properties of glacier ice influence its flow and melting patterns in response to climate change?
- Electromagnetic Interference in Medical Devices . What levels of electromagnetic interference can disrupt the operation of common medical devices?
- Light Absorption and Energy Efficiency in Smart Windows . How does varying the light absorption properties of smart windows affect their energy efficiency in different climates?
- The Dynamics of Satellite Orbits: Stability and Perturbations . What factors most significantly affect the stability of satellite orbits, and how can perturbations be minimized?
- Physics of Firefighting: Water Stream Dynamics and Heat Absorption . How do the dynamics of water streams from firefighting equipment impact heat absorption in different fire scenarios?
- Biophysics of Human Circulation: Arterial Blood Flow Analysis . How does arterial stiffness affect blood flow dynamics, and what implications does this have for cardiovascular health?
- The Role of Physics in Optimizing Solar Cooker Designs . What design elements are crucial for maximizing the efficiency of solar cookers in various environmental conditions?
- The Efficacy of Anti-Reflective Coatings in Optical Devices . How do different anti-reflective coatings improve the performance of optical devices under various light conditions?
- Physics in 3D Printing: Material Properties and Layer Adhesion . How do the physical properties of materials affect layer adhesion and the structural integrity of 3D-printed objects?
- The Efficiency of Different Types of Insulators in High Voltage Applications . What types of insulators offer the most effective performance for minimizing energy loss in high-voltage power lines?
- The Impact of Sound Frequency on Material Fatigue . How do different frequencies of sound waves accelerate material fatigue in metals and polymers?
- The Physics of Virtual Reality: Improving Motion Tracking Accuracy . What key physical principles can improve motion-tracking accuracy in virtual reality systems?
These topics and questions provide a starting point for an in-depth exploration of physical concepts, encouraging critical thinking and problem-solving skills in the context of real-world applications.
Also, understanding the science EE data collection methods can improve your chances of achieving top marks in your Extended Essay.
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Writing an IB Physics extended essay is both challenging and enjoyable. Choosing a good topic, completing comprehensive research, and writing a well-structured paper may greatly influence your IB Diploma experience. Remember, this is your chance to demonstrate your enthusiasm and knowledge of Physics.
By the way, our dedicated team of IB experts can guide students who need help with Extended Essay writing. Contact us for personalized essay assistance.
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IB Physics Extended Essay Topics for IB
Table of contents
- Writing Metier
What’s up, IB scholars? You’re about to start writing your IB Physics Extended Essay, and I know you’re searching for that killer topic that’s going to stand out. Well, guess what? I’ve got over 100 extended essay topics and research questions ready for you.
You do not need to thank me; you better say thank you to our IB writers at Writing Metier , who have invented and forwarded this awesome list to me for submission.
This isn’t just about getting it done; it’s about crushing it with something you’re passionate about. So let’s get straight to the point and find you Physics EE ideas that will make some noise and show what you’ve got!
100+ Physics Extended Essay Topics
I’m breaking the list into ten categories for IB Physics extended essay topics, each with three subcategories for easier navigation:
- Projectile Motion (e.g., trajectory analysis, range equations, effects of air resistance)
- Circular Motion (e.g., centripetal force in different systems, banking angles, conical pendulums)
- Dynamics of Rigid Bodies (e.g., rotational inertia, torque, angular momentum conservation)
- Thermodynamics
- Heat Transfer (e.g., efficiency of different materials as insulators, rate of cooling, Newton’s law of cooling)
- Gas Laws (e.g., pressure-volume relationship, temperature effects, real vs. ideal gases)
- Phase Changes (e.g., specific heat capacities, latent heat, cooling curves)
- Waves and Oscillations
- Harmonic Motion (e.g., pendulums, mass-spring systems, resonance)
- Wave Properties (e.g., speed of sound in various media, diffraction patterns, polarization)
- Sound and Acoustics (e.g., Doppler effect, sound intensity, acoustic properties of materials)
- Electricity and Magnetism
- Circuit Analysis (e.g., Ohm’s law, series vs. parallel circuits, Kirchhoff’s laws)
- Electromagnetism (e.g., Faraday’s law, magnetic fields around conductors, applications of electromagnets)
- Capacitance and Inductance (e.g., time constants, LC circuits, energy storage)
- Modern Physics
- Quantum Phenomena (e.g., photoelectric effect, electron diffraction, energy levels in atoms)
- Nuclear Physics (e.g., radioactive decay, half-life, nuclear reactions)
- Special Relativity (e.g., time dilation, length contraction, mass-energy equivalence)
- Energy and Power
- Renewable Energy Sources (e.g., efficiency of solar panels, wind turbine performance, biofuels)
- Energy Conversion (e.g., internal combustion engines, thermal power plants, regenerative braking)
- Power Transmission (e.g., electrical grid efficiency, power loss, superconductors)
- Fluid Dynamics
- Aerodynamics (e.g., lift and drag forces, Bernoulli’s principle, airfoil shapes)
- Hydrodynamics (e.g., flow rate, viscosity effects, Reynolds number)
- Buoyancy and Density (e.g., Archimedes’ principle, floating and sinking, density stratification)
- Astrophysics and Cosmology
- Stellar Physics (e.g., Hertzsprung-Russell diagram, star classifications, blackbody radiation)
- Cosmological Models (e.g., Big Bang theory, cosmic microwave background, dark matter)
- Orbital Mechanics (e.g., Kepler’s laws, satellite motion, escape velocity)
- Optics and Light
- Reflection and Refraction (e.g., Snell’s law, critical angle, optical fibers)
- Lens and Mirror Optics (e.g., image formation, focal length, magnification)
- Interference and Diffraction (e.g., double-slit experiment, diffraction gratings, holography)
- Electromagnetic Waves
- Radio and Microwave Radiation (e.g., antenna design, signal propagation, communication systems)
- Infrared and Ultraviolet Light (e.g., thermal imaging, UV radiation effects, spectroscopy)
- X-rays and Gamma Rays (e.g., medical imaging, radiation therapy, nuclear gamma spectroscopy)
Each of these categories and subcategories can be explored through experiments, data analysis, or theoretical investigation, offering a wide range of possibilities for IB students to develop their IB Physics EE topics.
Mechanics Topics and Research Questions
Projectile Motion
Topic: The effect of launch angle on the range of a projectile.
Research Question: How does changing the launch angle affect the horizontal distance traveled by a projectile?
Topic: The impact of air resistance on the trajectory of a projectile.
Research Question: To what extent does air resistance alter the trajectory of a projectile compared to the idealized motion?
Topic: The accuracy of range equations in predicting projectile motion.
Research Question: How accurately do standard range equations predict the motion of a projectile in a controlled environment?
Circular Motion
Topic: Measuring centripetal force in a rotating system.
Research Question: How does the centripetal force required for circular motion change with the radius and speed of the rotating object?
Topic: The physics of banking angles in road design.
Research Question: What is the optimal banking angle for a curve on a road to maximize friction and safety at a given speed?
Topic: Investigating the period of a conical pendulum.
Research Question: How does the length of the string affect the period of oscillation of a conical pendulum?
Dynamics of Rigid Bodies
Topic: The relationship between rotational inertia and angular acceleration.
Research Question: How does changing the distribution of mass affect the rotational inertia and angular acceleration of a rigid body?
Topic: The conservation of angular momentum in a closed system.
Research Question: How does the angular momentum of a system change when the moment of inertia is altered?
Topic: The effect of torque on rotational motion.
Research Question: How does the application of torque affect the rotational motion of a rigid body with a fixed axis?
Mechanics shows us how things move and what affects them, but when we start talking about thermodynamics, we’re dealing with heat and energy.
It’s like going from watching a ball roll down a hill to understanding why it feels warm to the touch on a sunny day.
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Thermodynamics Topics and Research Questions
Heat Transfer
Topic: Comparing the thermal insulation properties of various materials.
Research Question: Which material provides the best thermal insulation for a given application, and why?
Topic: The rate of cooling of a liquid in different environments.
Research Question: How does the rate of cooling of a hot liquid differ between various environmental conditions?
Topic: Investigating Newton’s law of cooling.
Research Question: How closely does the cooling of a warm object follow Newton’s law of cooling in a real-world setting?
Topic: The pressure-volume relationship of a gas at constant temperature.
Research Question: How does the volume of a gas change with pressure at a constant temperature, and does it align with Boyle’s law?
Topic: Temperature effects on the pressure of an enclosed gas.
Research Question: How does the pressure of a fixed amount of gas change with temperature in a sealed container?
Topic: Real vs. ideal gases under different conditions.
Research Question: How do the behaviors of real gases deviate from the predictions of the ideal gas law under high-pressure conditions?
Phase Changes
Topic: Measuring specific heat capacities of different substances.
Research Question: How do the specific heat capacities of different substances compare, and what implications does this have for their use in heat storage?
Topic: The energy involved in the phase change of materials.
Research Question: How much energy is absorbed or released during the phase change of a substance, and how does this relate to its latent heat?
Topic: Analyzing cooling curves of substances.
Research Question: What can the cooling curve of a substance tell us about its phase change properties and purity?
After getting a grip on how heat works, it’s pretty cool to see how that energy gets around. Waves are all about energy transfer, whether it’s the sound from your speakers or the ripples on a pond when you toss a stone.
Waves and Oscillations Topics and Research Questions
Harmonic Motion
Topic: The period of a simple pendulum.
Research Question: How does the length of a pendulum affect its period, and does this confirm the theoretical model?
Topic: The behavior of mass-spring systems.
Research Question: How do different spring constants affect the oscillation of a mass-spring system?
Topic: Resonance frequencies in mechanical systems.
Research Question: At what frequencies do various mechanical systems resonate, and what factors influence this?
Wave Properties
Topic: Measuring the speed of sound in different media.
Research Question: How does the speed of sound compare in various gases, and what does this tell us about the properties of those gases?
Topic: Investigating diffraction patterns through different apertures.
Research Question: How do diffraction patterns change with the shape and size of apertures?
Topic: Polarization of light by various materials.
Research Question: How effectively can different materials polarize light, and what does this indicate about their structure?
Sound and Acoustics
Topic: The Doppler effect and moving sources.
Research Question: How does the frequency of a sound wave change as the source moves relative to an observer?
Topic: Sound intensity levels at different distances.
Research Question: How does the intensity of sound change with distance from the source, and is it consistent with the inverse square law?
Topic: Acoustic properties of materials in soundproofing.
Research Question: Which materials are most effective at soundproofing a room, and how do their acoustic properties contribute to this effectiveness?
Each of these topics can be tailored to fit the requirements of an IB Physics extended essay, with the research question guiding the experimental design, data collection, and analysis.
If you are interested, we also have a list of potential Physics IA topic ideas for you. Make sure to check them out as well.
Once you’ve got a handle on waves, you’re ready to see how they relate to electricity and magnetism. It’s like connecting the dots between the vibrations in the air and the current in the wires of your headphones.
Electricity and Magnetism Topics and Research Questions
Circuit Analysis
Topic: The resistance of series and parallel circuits.
Research Question: How does the total resistance in a circuit vary with the arrangement of resistors in series and parallel configurations?
Topic: Verification of Kirchhoff’s laws in complex circuits.
Research Question: How accurately do Kirchhoff’s laws predict the current and voltage distribution in a multi-loop circuit?
Topic: The temperature dependence of resistivity in conductors.
Research Question: How does the resistivity of a metallic conductor change with temperature, and what does this imply about electron scattering?
Electromagnetism
Topic: Faraday’s law of electromagnetic induction.
Research Question: How does the rate of change of magnetic flux influence the induced EMF in a coil?
Topic: The magnetic field patterns around different conductor configurations.
Research Question: How do the configurations of conductors affect the shape and strength of the magnetic fields they produce?
Topic: The efficiency of electromagnets.
Research Question: What factors determine the lifting power of an electromagnet, and how can its efficiency be maximized?
Capacitance and Inductance
Topic: Time constants in RC circuits.
Research Question: How does the capacitance and resistance in an RC circuit affect its charging and discharging time constants?
Topic: Resonance in LC circuits.
Research Question: At what conditions does resonance occur in an LC circuit, and how does this affect the circuit’s impedance?
Topic: Energy storage in capacitors and inductors.
Research Question: How do capacitors and inductors store energy, and what factors affect their energy storage capacity?
Electricity and magnetism are pretty easy to see in action, but modern physics? That’s where things get wild. You’re not just looking at what’s in front of you anymore; you’re considering what’s happening on a scale so small or so huge that it bends your mind a bit.
Modern Physics Topics and Research Questions
Quantum Phenomena
Topic: The photoelectric effect and Planck’s constant.
Research Question: How can the photoelectric effect be used to determine Planck’s constant, and what does this reveal about the nature of light?
Topic: Electron diffraction and crystal structure.
Research Question: How does electron diffraction provide evidence for the wave nature of electrons and the structure of crystals?
Topic: Energy levels in hydrogen atoms.
Research Question: How do the observed spectral lines of hydrogen correspond to the theoretical energy levels predicted by quantum mechanics?
Nuclear Physics
Topic: Radioactive decay series.
Research Question: How does the decay series of a radioactive isotope correspond to theoretical predictions of half-life and decay pathways?
Topic: The effect of shielding on radiation intensity.
Research Question: How effective are different materials at shielding against various types of radioactive emissions?
Topic: Nuclear reaction energy calculations.
Research Question: How does the measured energy released in a nuclear reaction compare to the values predicted by the mass-energy equivalence principle?
Special Relativity
Topic: Time dilation observed in cosmic muons.
Research Question: How does the observed decay rate of cosmic muons provide evidence for time dilation effects predicted by special relativity?
Topic: Length contraction and high-speed particles.
Research Question: How can length contraction be demonstrated or inferred from high-speed particle interactions?
Topic: Mass-energy equivalence in particle physics.
Research Question: How does the increase in mass of particles at high velocities provide evidence for the mass-energy equivalence principle?
But even with all that mind-bending stuff, physics isn’t just about theory. It’s also about practical stuff, like how we use energy. From solar panels on your roof to the battery in your phone, it’s all about getting the power we need to do what we want.
Energy and Power Topics and Research Questions
Renewable Energy Sources
Topic: The efficiency of photovoltaic cells under different conditions.
Research Question: How do factors such as light intensity, wavelength, and temperature affect the efficiency of solar panels?
Topic: Performance analysis of wind turbines.
Research Question: How does blade design affect the efficiency and power output of a wind turbine?
Topic: The viability of biofuels compared to fossil fuels.
Research Question: How do the energy outputs and carbon footprints of biofuels compare to those of traditional fossil fuels?
Energy Conversion
Topic: The efficiency of internal combustion engines.
Research Question: How do variables such as fuel type and engine temperature affect the efficiency of an internal combustion engine?
Topic: Thermal efficiency of power plants.
Research Question: What are the main factors that limit the thermal efficiency of modern thermal power plants?
Topic: The effectiveness of regenerative braking systems.
Research Question: How much energy can regenerative braking systems realistically recover during vehicle deceleration?
Power Transmission
Topic: Electrical grid efficiency and power loss.
Research Question: How does the distance and cross-sectional area of transmission lines affect power loss in an electrical grid?
Topic: The potential of superconductors in power transmission.
Research Question: What are the challenges and potential benefits of using superconductors for power transmission?
Topic: The impact of load balancing on power grid stability.
Research Question: How does load balancing affect the stability and efficiency of a power grid?
These topics and research questions are designed to inspire a range of investigations for the Physics Extended Essay, allowing students to delve into both experimental and theoretical aspects of physics.
And speaking of practical, fluid dynamics is all about understanding how liquids and gases move. It’s like figuring out why blowing over a hot soup cools it down or how an airplane stays up in the sky.
Fluid Dynamics Topics and Research Questions
Aerodynamics
Topic: The effect of airfoil shape on lift generation.
Research Question: How does altering the curvature and angle of an airfoil affect its lift and drag forces?
Topic: Application of Bernoulli’s principle to various wing designs.
Research Question: How do different wing designs in aircraft utilize Bernoulli’s principle to achieve lift?
Topic: Drag force comparison on streamlined vs. bluff bodies.
Research Question: How does the shape of an object affect the drag force experienced at different flow velocities?
Hydrodynamics
Topic: The relationship between flow rate and pipe diameter in fluid dynamics.
Research Question: How does changing the diameter of a pipe affect the flow rate of a fluid within it, given a constant pressure difference?
Topic: Viscosity effects on fluid flow in channels.
Research Question: How does the viscosity of a fluid influence its flow characteristics in narrow channels?
Topic: Analysis of Reynolds number in predicting fluid flow regimes.
Research Question: How does the Reynolds number determine the transition from laminar to turbulent flow in a pipe?
Buoyancy and Density
Topic: Investigating Archimedes’ principle for irregularly shaped objects.
Research Question: How accurately does Archimedes’ principle predict the buoyant force on objects with complex shapes?
Topic: The stability of floating bodies and the concept of metacentric height.
Research Question: How does the distribution of mass affect the stability of a floating vessel?
Topic: Density stratification in fluids and its impact on layered flow.
Research Question: How does density stratification affect the movement and mixing of different fluid layers?
From there, it’s a big leap to astrophysics and cosmology—literally. You go from studying the flow of air around a plane to the flow of galaxies in space. It’s about seeing the bigger picture and our place in it.
If you need Physics paper writing help , we have a separate team of experts who can handle almost any tasks.
Astrophysics and Cosmology Topics and Research Questions
Stellar Physics
Topic: Analyzing the Hertzsprung-Russell diagram for star clusters.
Research Question: What can the Hertzsprung-Russell diagram reveal about the age and composition of a star cluster?
Topic: Classification and analysis of star spectra.
Research Question: How does the classification of stellar spectra correlate with a star’s temperature, luminosity, and lifecycle stage?
Topic: Investigating blackbody radiation in stars.
Research Question: How well does the blackbody radiation model fit the observed spectral energy distribution of stars?
Cosmological Models
Topic: Evidence for the Big Bang theory from cosmic microwave background radiation.
Research Question: What does the cosmic microwave background radiation tell us about the origins and evolution of the universe?
Topic: The role of dark matter in galaxy formation and rotation.
Research Question: How does the presence of dark matter influence the rotational speeds of galaxies?
Topic: Verifying Kepler’s laws through observation of planetary motion.
Research Question: How accurately do Kepler’s laws describe the motion of bodies in the solar system?
Orbital Mechanics
Topic: The energy requirements for satellite launch and achieving escape velocity.
Research Question: What are the energy considerations and optimal conditions for a satellite to achieve escape velocity from Earth?
Topic: The effects of orbital perturbations on satellite stability.
Research Question: How do factors such as atmospheric drag and gravitational influences affect the stability of satellite orbits?
Topic: Analysis of gravitational slingshot maneuvers in space missions.
Research Question: How can gravitational assist maneuvers be optimized to increase spacecraft velocity?
But even with our heads in the stars, we can’t forget about light. Optics brings it back down to earth, showing us how light works, whether it’s bending through a lens or bouncing off a mirror.
Optics and Light Topics and Research Questions
Reflection and Refraction
Topic: The efficiency of optical fibers in transmitting light.
Research Question: How do imperfections in optical fibers affect the total internal reflection and efficiency of light transmission?
Topic: Investigating Snell’s law at various interfaces.
Research Question: How accurately does Snell’s law predict the angle of refraction for different transparent materials?
Topic: The critical angle for total internal reflection in various media.
Research Question: How does the critical angle for total internal reflection change with the refractive index of different materials?
Lens and Mirror Optics
Topic: The formation of images by converging lenses under various conditions.
Research Question: How does the focal length of a lens affect the properties of the image it forms?
Topic: The magnification power of compound microscope systems.
Research Question: How do the focal lengths of the objective and eyepiece lenses in a microscope affect its overall magnification?
Topic: The aberrations in images formed by lenses and mirrors.
Research Question: What types of optical aberrations are most prevalent in simple lens systems, and how can they be minimized?
Interference and Diffraction
Topic: The double-slit experiment and wave-particle duality.
Research Question: How does the double-slit experiment provide evidence for the wave-particle duality of light?
Topic: Measuring the wavelength of light using diffraction gratings.
Research Question: How can diffraction gratings be used to accurately measure the wavelength of light?
Topic: The application of holography in image storage and retrieval.
Research Question: How does holography utilize the principles of interference and diffraction to store and reconstruct images?
And light’s just one piece of the whole world of Physics. Electromagnetic waves are everywhere, from the microwave that heats your lunch to the X-rays at the dentist. It’s all part of the same big family that keeps our world connected and our lives running.
Electromagnetic Waves Topics and Research Questions
Radio and Microwave Radiation
Topic: The design and optimization of antennas for radio communication.
Research Question: How does the geometry of an antenna affect its radiation pattern and signal reception?
Topic: Signal propagation in different atmospheric conditions.
Research Question: How do atmospheric conditions affect the propagation of radio and microwave signals?
Topic: The effectiveness of microwave radiation in communication systems.
Research Question: What are the advantages and limitations of using microwave radiation in satellite communications?
Infrared and Ultraviolet Light
Topic: Thermal imaging and the emissivity of different materials.
Research Question: How does the emissivity of a material affect its detection in thermal imaging?
Topic: The effects of UV radiation on various substances.
Research Question: How does exposure to ultraviolet light affect the chemical structure and properties of different materials?
Topic: Spectroscopy and the identification of chemical compounds.
Research Question: How can infrared and ultraviolet spectroscopy be used to identify and analyze different chemical compounds?
X-rays and Gamma Rays
Topic: The application of X-ray imaging in medical diagnostics.
Research Question: How do different tissues and materials affect the absorption and transmission of X-rays in medical imaging?
Topic: Radiation therapy and the optimization of gamma ray dosage.
Research Question: How can the dosage and targeting of gamma rays in radiation therapy be optimized for cancer treatment?
Topic: Nuclear gamma spectroscopy and nuclear structure.
Research Question: What can gamma-ray spectra reveal about the structure and energy states of atomic nuclei?
These topics and research questions are designed to guide students in their exploration of advanced concepts in physics, providing a foundation for a thorough and insightful Extended Essay.
Creating an engaging and contemporary Physics Extended Essay can be particularly rewarding when the topic is relevant to modern situations and challenges.
Fresh Breath Ideas for Physics IB EE
Here are 12 topics that connect to current events or recent advancements in technology, along with a brief explanation of their relevance:
The Physics of Electric Vehicles
Investigate the efficiency of regenerative braking systems in electric cars and how they contribute to the overall energy efficiency of the vehicle.
Renewable Energy Harvesting
Analyze the potential of piezoelectric materials in converting mechanical stress from human activities into electrical energy, contributing to sustainable power generation.
Smartphone Sensors
Explore the use of gyroscopes and accelerometers in smartphones for navigation and gaming, and how these sensors rely on principles of mechanics and material science.
Wireless Charging Technologies
Examine the electromagnetic principles behind wireless charging pads and the efficiency of energy transfer at various distances and alignments.
Solar Panel Coatings
Research the effectiveness of anti-reflective coatings on solar panels and their role in enhancing the absorption of light and overall energy conversion efficiency.
Aerodynamics of Drones
Study the impact of drone design on flight stability and energy consumption, which is critical for extending their use in delivery systems and aerial photography.
Physics in Sports Equipment
Investigate the materials and design features that contribute to the performance and safety of modern sports helmets, from bicycles to football.
Thermal Imaging and Disease Detection
Explore the use of thermal imaging in detecting fevers and its potential application in managing pandemics by early identification of symptomatic individuals.
Nanomaterials in Electronics
Analyze the electrical conductivity and properties of graphene and other nanomaterials that are revolutionizing the electronics industry.
Physics of Modern Building Design
Investigate how principles of thermodynamics are applied in the design of eco-friendly and energy-efficient buildings.
Quantum Computing
Study the basic principles of quantum computing and the challenges in maintaining quantum coherence in qubits, which are the fundamental building blocks of quantum computers.
SpaceX and Reusable Rockets
Research the physics behind the reusability of rockets, focusing on the landing mechanisms employed by companies like SpaceX and how they conserve momentum and energy.
Each of these topics is not only grounded in physics principles but also has a wealth of information available due to their current relevance and the ongoing research in these areas.
They offer a chance to combine theoretical physics with practical application in the modern world, which can be particularly engaging for an Extended Essay.
Need a Hand with Your Physics IB EE?
Hey there, IB students! If you’re stuck on coming up with a topic or diving into writing your Physics IB Extended Essay, don’t sweat it. Our team of IB experts at Writing Metier is here to help you write a custom IB EE on this exciting subject .
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Whether you need a spark of inspiration for your topic or you want a custom-written EE following the word count , rubric and criteria that hits all the right notes, we’ve got your back.
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So, that’s the rundown. Physics isn’t just about equations and lab coats; it’s the stuff all around us, from the smallest particles to the vastness of space. It’s about getting to the heart of how things work, from the every day to the extraordinary.
And the more you learn, the more you see how everything’s linked together in one big, amazing picture.
Free topic suggestions
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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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- How to write?
How to Write a Physics Extended Essay? A Guide for IB Students
Luke MacQuoid
- October 12, 2023
Table of Contents
In my years of experience as an IB writer, I’ve come to appreciate the nuances and depth of the Physics extended essay. It is an opportunity for IB students to showcase their knowledge and passion for this subject.
Today, I’d like to share my insights and help guide you on how to write a compelling and well-structured Physics extended essay .
Understanding the Physics Extended Essay Requirements
According to general IB criteria, this work has specific guidelines that students must adhere to, ensuring they remain within the Physics extended essay requirements:
- Ensure your topic is rooted in Physics. It should focus on experimental work, though some theoretical essays are acceptable if they tackle unconventional issues.
- While the word limit for the essay is 4,000 words, I’ve often observed that the most impactful papers are concise and straight to the point.
- A well-defined research question is at the heart of every essay. Ensure it’s precise and relevant to the Physics extended essay topics you’re considering.
- If you’re leaning towards an experimental Physics extended essay, remember that your experiments should be replicable. They should also provide insights that can be extrapolated to real-world scenarios.
In conclusion, while the Physics extended essay might seem like a mountain to climb, it’s achievable with the proper guidance and a clear understanding of the requirements.
Choosing the Right Topic for Your Physics Extended Essay
Often, students ask me about the best Physics extended essay topics. I think choosing an option that truly resonates with your interests but also aligns with IB’s expectations is essential. It brings me to the specifics of the IB extended essay Physics topics , which get into detailed research scopes and can challenge your analytical skills.
Possible Extended Essay Topics in IB Physics
So, what are the possible extended essay topics in IB Physics ? Here are a few options for you to consider:
- The Physics of Black Holes.
- Quantum Entanglement and its Implications.
- The Effects of Material and Thickness on Solar Cell Efficiency.
- The Acoustic Properties of Different Woods.
- Relativity in Modern GPS Systems.
- The Physics Behind Magnetic Levitation Trains.
- Fluid Dynamics in Sports.
- The Correlation Between Altitude and Boiling Points of Liquids.
- Thermoelectric Materials and their Potential in Waste Heat Recovery.
- The Harmonics of String Instruments.
Think of areas in Physics that intrigue you: Quantum mechanics? AstroPhysics? Thermodynamics? The options are numerous, but the best topics align with your passion and the IB’s expectations.
Experimental Physics Extended Essay vs. Theoretical: What’s the Difference?
Ah, the age-old debate: Experimental or Theoretical? From my experience, this decision can make or break your essay. So, let’s break it down.
- Experimental Physics . In essence, this approach is hands-on. It’s about setting up experiments, recording observations, and making inferences. If you enjoy the tangible aspects of Physics and don’t mind getting your hands dirty, this might be your calling.
- Theoretical Physics . Now, this is where things get abstract. Theoretical Physics deepens into concepts, relying heavily on mathematical models and predictions. It’s less about “doing” and more about “thinking”. If abstract ideas and critical thinking excite you, this path might be the one for you.
In conclusion, always remember to stay true to your passions while adhering to the set standards. From what I know, the path might seem challenging, but the sense of accomplishment at the end is unparalleled!
IB Physics Extended Essay: What Resources You Can Use
Taping into many resources is critical to strengthen your research and arguments. Here’s a comprehensive list that can guide you through this venture:
- Primary Textbooks . These are the backbone of your foundational knowledge. But don’t just stick to your coursebook. Check advanced-level Physics textbooks for deeper insights.
- Academic Journals . Google Scholar , JSTOR , and the American Physical Society’s journals offer up-to-date research findings and specialized knowledge.
- University Libraries . Many institutions allow the public, especially students, access to their libraries. They can be gold mines for specialized books and research papers.
- Online Platforms & Databases . You can use arXiv — a free distribution service and archive for preprints. NASA AstroPhysics Data System is also a perfect digital library portal for researchers in astronomy and Physics.
- Research Institutions & Laboratories . Some institutes allow students to access their data or even conduct experiments. Examples are CERN, Fermilab, or local universities with robust Physics departments.
- Educational Websites . Websites like Khan Academy or The Physics Classroom can elucidate complex topics.
- Software & Simulation Tools . Use COMSOL MultiPhysics for modeling and simulating experiments. PhET Interactive Simulations offers free interactive math and science simulations.
- Expert Interviews . Engaging with Physics professors, researchers, or professionals can offer unique insights. They might also point you to niche resources.
- Seminars & Workshops . Attend these, especially ones that align with your essay topic. They offer cutting-edge insights and networking opportunities.
- Your School’s Resources . Think about your school’s lab equipment, library, and, most importantly, your Physics teacher!
- Peer-Reviewed Conferences . Look for published proceedings for the latest in Physics research.
- Popular Science Books & Magazines . These can be used sparingly for general context or simply explaining complex concepts. Magazines like Scientific American or Physics Today might be helpful.
According to general IB criteria, while it’s essential to gather as much information as possible, always ensure the credibility of your sources. Cross-reference data and opt for primary over secondary sources.
The Structure of the Physics Extended Essay
Structuring your paper can make all the difference. Let’s discuss all parts of the Physics extended essay to ensure clarity and coherence.
1. The Informative Abstract
Venturing forward, you’d step into the abstract. Think of this as your elevator pitch, where you have around 300 words to present the crux of your research. Start by briefly explaining the purpose of your essay.
2. The All-Important Introduction
The introduction is your gateway to captivate the reader. Set the stage by introducing your topic and providing context. Why is it important? What real-world implications does it have? How does it tie into the larger world of Physics?
3. Methodology and Approach
Detail out the methods you’ve employed. Clarity is vital, whether it’s an experimental setup or a theoretical analysis. Describe your approach, any equipment used, variables considered, and how you collected data.
4. To the Body
It’s the heart of your essay. Analyze your findings, relate them to existing theories, and critically evaluate any discrepancies or anomalies. Break down complex concepts, ensuring they’re accessible to the reader. Use diagrams, graphs, or tables if they aid in understanding.
5. Conclusions and Reflections
Summarize your findings, reiterating their significance in the broader context of Physics. Reflect upon the entire research process, discussing your challenges and what you learned from them. Highlight potential areas for further research or unanswered questions that arose.
6. References and Bibliography
Every piece of information, data, or idea that isn’t original to you needs to be cited. Adhere to the citation style preferred by the IB and ensure consistency throughout.
Need help with your IB extended essay?
From research and analysis to structuring and editing, our skilled mentors will be by your side, helping you craft an exceptional extended essay that not only meets the wordcount and stringent IB criteria but also reflects your passion for selected IB group .
Writing the Perfect Experimental Physics Extended Essay
Ah, the realm of experimental Physics extended essay. Many students assume this is the most challenging assignment , but this is only sometimes the case. With the right approach, you can quickly reveal your topic and get the highest grade, so do not be afraid to experiment.
What Makes an Experimental Physics Extended Essay Stand Out?
Based on my experience, the most outstanding essays consistently demonstrate these characteristics:
- They don’t just regurgitate known facts. They take risks, push novel ideas, or offer a fresh perspective on classic experiments.
- It’s not just about noting observations but explaining why specific results were obtained, possibly linking to underlying Physics principles.
- A standout essay meticulously details the experiment setup, ensuring reproducibility. Every step, from equipment calibration to data collection, is clearly articulated.
- Beyond presenting results, these essays interpret data critically, drawing meaningful conclusions and suggesting further research areas.
Remember that the best essays often link findings to real-world applications or implications, showing a broader understanding of Physics in our daily lives.
Tips for a Successful Physics Extended Essay
Throughout my path as an IB tutor, I’ve picked up a few tricks of the trade that I believe can improve any paper:
- Start Early . Physics, being a comprehensive subject, demands time for research, experimentation (if you’re doing an experimental essay), and analysis.
- Pick a Manageable Topic . Getting into highly complex areas is tempting, but remember that depth trumps breadth.
- Align with Your Interests . Your enthusiasm will shine through in your writing. Choose a topic you’re genuinely curious about.
- Prioritize Your Research Question . It should be clear, focused, and researchable within the word limit. Avoid overly broad or vague questions.
- Use Varied Resources . While textbooks are a good starting point, venture into academic journals, online databases, and expert interviews to gather diverse insights.
- Stick to the IB Rubric . Familiarize yourself with the IB Physics extended essay criteria . This rubric will be your guiding light, ensuring you hit all the necessary points.
- Draft, Revise, Repeat . Your first draft is unlikely to be your final one. Write, take a break, return with fresh eyes, revise, and repeat the cycle.
- Maintain Academic Integrity . Cite all sources diligently. Plagiarism is a strict no-no in the IB world.
- Understand the Theory . Even if you’re focusing on an experiment, grounding your observations in theoretical concepts is crucial. It shows a holistic understanding of the topic.
- Maintain a Consistent Structure . Introduction, research question, body, analysis, conclusion, and references — maintaining this flow aids in readability and coherence.
Over the years, I’ve seen students get lost in the vastness of their chosen subjects, but with a straightforward question, you can remain focused. Lastly, avoid straying from the IB extended essay Physics guidelines. They’re there for a reason, and adhering to them can significantly boost your score.
So, writing the Physics extended essay is no small feat, but with the right approach and a sprinkle of dedication, it’s an enriching experience. Follow the guidelines, choose your topic wisely, and structure your essay well, and you’ll be on the path to success. Best of luck to you!
Luke MacQuoid has extensive experience teaching English as a foreign language in Japan, having worked with students of all ages for over 12 years. Currently, he is teaching at the tertiary level. Luke holds a BA from the University of Sussex and an MA in TESOL from Lancaster University, both located in England. As well to his work as an IB Examiner and Master Tutor, Luke also enjoys sharing his experiences and insights with others through writing articles for various websites, including extendedessaywriters.com blog
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Ultimate Guide to a stellar IB Physics Extended Essay (EE): Tips, Tricks and Expert Guidance!
Ultimate Guide to the IB Physics Extended Essay
Are you preparing to tackle your IB Physics Extended Essay and looking for impactful topics, insightful writing tips, and expert guidance? You've landed in the right place! This post will provide you with essential information and strategies to help you craft a compelling IB Physics EE.
As an IB Physics student, the task of writing a 4000-word extended essay (EE) is an exciting yet formidable challenge. Selecting a topic that is engaging and manageable is crucial to ensuring your EE stands out. In this blog post, I will walk you through a clear, step-by-step method to develop the perfect IB Physics EE research question.
Guide to Develop Your IB Physics EE Ultimate Research Question:
Choose a Broad Topic : Begin with a wide-ranging area of interest, such as the physics of sound.
Generate a Starter Question : Use this question to spark ideas for narrowing your focus.
Formulate Your Research Question : Concentrate on one independent variable and one dependent variable.
Sketch Out a Research Plan : Outline the methods you'll use to explore your research question.
Envision a Potential Outcome : Predict the possible results or conclusions of your study.
Once you’ve completed these steps, you will have a comprehensive plan ready to discuss with your Physics EE supervisor. They will offer further guidance on conducting your practical experiments in your school’s lab facilities.
Choosing Your IB Physics EE Topics
The first step in your EE journey is selecting a topic that not only interests you but also allows you to apply the principles of physics. An excellent IB Physics EE topic should challenge you to think critically and apply scientific theories to real-world phenomena. For instance, exploring the relationship between the viscosity of a fluid and its effect on terminal velocity presents a perfect blend of theory and practical investigation.
How to Write an IB Physics EE
Writing an IB Physics Extended Essay involves several key components. Your essay should start with a clear title that encapsulates your research. Following this, your research question should be precise and presented early in the introduction. It is vital to frame this question in a way that invites scientific investigation—ask "What is the relationship between X and Y?" rather than simply stating a hypothesis.
Methods of Approach
You have the choice between a theoretical essay or an experimental study. If you decide on an experimental approach, consider whether you will gather primary data or rely on secondary sources. When using secondary data for your IB Physics EE, ensure you critically assess its accuracy and relevance to your research question. This approach will not only enhance the validity of your study but also demonstrate your analytical skills.
Importance of Theory in IB Physics EE
No matter the nature of your experimental work, it should always be grounded in robust theoretical research. This involves detailed exploration of the relevant physical laws and principles that govern the phenomena you are studying. For example, if your topic concerns the acoustics of an exhaust pipe, you should delve into the physics of sound waves and how they interact with different environments.
IB Physics Extended Essay Tips
Here are some quick tips to enhance your IB Physics EE:
- Keep your research question focused and manageable.
- Ensure your experimental methods are clear and replicable.
- Engage with theoretical concepts to deepen your analysis.
- Avoid overly complex apparatus that might obscure the physics concepts you're exploring.
Ultimately, this post aims to provide a launching pad, illustrating the breadth of potential topics within physics that are ripe for a detailed extended essay. With dedicated research and thoughtful analysis, you can craft a compelling, insightful essay that showcases your enthusiasm and understanding of physics.
Ultimate Sample Topic list to the Physics EE:
Topic 1: The Effect of Temperature on the Electrical Resistance of Metals
Begin with a detailed study of electrical resistivity, focusing on how and why different metals respond to changes in temperature. Review academic literature and scientific texts that discuss the principles of electrical conductivity and the impact of thermal energy on atomic structures in metals.
Experimentation
Design an experiment to measure the resistance of several metals (like copper, aluminum, and iron) at various temperatures. This will involve heating metal wires in a controlled environment and using a multimeter to measure changes in resistance.
Data Analysis
Analyze the collected data to determine how the resistance of each metal changes with temperature. Use graphical representations to highlight the relationship and apply statistical tools to validate the findings.
Results and Conclusion
Conclude by summarizing the relationship between temperature and resistance for the metals tested. Discuss the implications of these findings in real-world applications, such as in electrical engineering and materials science. Highlight the limitations of the experiments and suggest areas for further research.
Topic 2: Investigating the Refractive Index of Liquids with Temperature
Explore the theory behind light refraction and how the refractive index of a substance changes with temperature. Gather resources on the molecular dynamics of liquids and how thermal expansion affects optical properties.
Set up an experiment to measure the refractive index of various liquids (such as water, glycerin, and vegetable oil) at different temperatures using a refractometer or a similar device.
Process the experimental data to examine the correlation between temperature and the refractive index. Utilize models to predict changes and discuss the accuracy of these models compared to the experimental data.
Discuss how the refractive index variation with temperature can affect optical applications, like lens design and optical fiber technology. Consider the experimental design's effectiveness and propose modifications for future studies.
Topic 3: The Doppler Effect and Its Applications
Study the Doppler Effect thoroughly, focusing on its theoretical basis and its applications in various fields such as astronomy, radar, and medical imaging. Review historical development and key experiments that have shaped understanding of the phenomenon.
Conduct experiments to observe the Doppler Effect using sound waves. This could involve recording the frequency of a sound from a moving source at various speeds and distances.
Analyze the frequency changes and compare them with theoretical predictions. Use software tools to simulate the effect under different conditions and compare these simulations with your experimental data.
Evaluate how well the experimental and simulated results align with theoretical expectations. Discuss the implications of the Doppler Effect in modern technology and potential areas for future research.
Topic 4: Measuring the Gravitational Constant Using Simple Pendulum
Review the historical context of gravitational studies and Newton’s law of universal gravitation. Study different methods that have been used to measure the gravitational constant, focusing on the role of pendulums.
Design a series of experiments to measure the gravitational constant using a simple pendulum setup. This involves varying lengths of the pendulum and measuring oscillation periods accurately.
Apply mathematical formulas to calculate the gravitational constant from the experimental data. Compare these findings with accepted values and analyze discrepancies.
Summarize the effectiveness of using a simple pendulum to measure gravitational forces. Discuss potential experimental errors or environmental factors that could affect accuracy and suggest improvements for further experiments.
Topic 5: Photovoltaic Efficiency in Different Light Conditions
Investigate the principles of photovoltaic cells and how their efficiency is influenced by different wavelengths and intensities of light. Explore both theoretical perspectives and practical implementations in solar technology.
Set up solar cells under varied lighting conditions to measure output voltage and current. Use different types of light sources, such as LED, halogen, and natural sunlight.
Analyze how light intensity and type affect the efficiency of the solar cells. Use the data to model performance in real-world solar applications.
Discuss how the findings could impact the design and placement of solar panels in different environments. Evaluate the limitations of the current technology and propose future research directions for improving photovoltaic efficiency.
Each of these topics provides a balance of theoretical background and practical experimentation, suitable for an extended essay in IB Physics that includes historical context and offers scope for innovative investigation.
As IB Puts it:
The IB Physics Extended Essay emphasizes several key aspects:
Practical Experimentation : Students apply theoretical physics principles through hands-on experiments, enhancing their understanding of complex concepts.
Simulation Use : Simulations allow exploration of phenomena that are difficult to study directly, enriching students' understanding and equipping them with valuable computational skills.
Interdisciplinary Approaches : Students are encouraged to incorporate knowledge from other sciences, leading to more comprehensive research projects that prepare them for complex problem-solving.
Peer Review : Engaging with supervisors, peers, and external experts through peer review offers diverse perspectives and improves the quality of research.
Preparation for STEM Careers : The extended essay develops critical skills like analytical thinking and problem-solving, providing a strong foundation for future academic and professional pursuits in science, technology, engineering, and mathematics.
Finding an IB Physics Extended Essay Tutor
Sometimes, you might find yourself needing extra help. An experienced IB Physics extended essay tutor can provide you with the guidance necessary to navigate complex topics and refine your writing. A tutor can help you develop a strong theoretical foundation and ensure your essay meets all the critical assessment criteria. If you're seeking specialized IB Physics IA or EE help, Rajat Sir offers tailored IB support to guide you through the process.
Personalized Feedback on IAs and EEs:
Rajat Sir has a proven track record of helping students secure perfect 7s on their Math and Physics IAs. The unique approach includes:
Detailed Review: Send your IA/EE/TOK Essay, and Rajat Sir will provide comments and suggestions.
Interactive Sessions: Engage in voice or Zoom calls to discuss feedback and areas of improvement.
Iterative Process: Work on the suggestions and repeat the process until your IA reaches its highest potential.
If you're at the initial stages or struggling with writing, Rajat Sir can assist in topic selection and the writing phase.
Online Personal Tutoring:
Rajat Sir provides the best IB Phsyics IA tutoring support through online personal tutoring sessions. With firsthand experience of the IB process, Rajat Sir focuses on ensuring students grasp the core concepts and develop the skills needed to excel in their exams.
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The IB Physics Extended Essay is an excellent opportunity for you to demonstrate your understanding of physics and your ability to perform independent research. By choosing a compelling topic, employing a robust methodological approach, and applying critical theoretical perspectives, you'll be well on your way to achieving a high score on your EE. Remember, the journey of exploring, writing, and refining your essay is as important as the final product. Good luck!
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Physics Extended Essay: The Complete Guide for IB Students
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by Antony W
September 3, 2022
In this guide, you’ll learn everything you need to know about Physics Extended Essay in IB. We’ll look at:
- What Physics EE is all about
- How to choose a topic
- The right approach to handling your topic and
- Physics EE assessment criteria
What’s Physics EE in IB?
A physics extended essay is an individual assignment that requires you to utilize a variety of abilities while exploring a topic of personal interest in the discipline of physics.
It focuses on physics within a broader set of scientific standards, and it takes the form of a research that incorporates a hypothesis or model, or a critical analysis that displays argumentation, comparison, or the extraction of pertinent information or data.
How to Choose a Physics Extended Essay Topic
The first rule when it comes to topic selection is that you must put emphasis on a subject within physics.
In other words, IB students have to ground their extended essays in physical theory and underline the subject's essence.
To write a more comprehensive, extended essay in the subject, you should select a focused, practical, and well-defined topic that allows you to conduct an in-depth analysis.
Avoid broad or complicated subjects, because they will not allow you to explore contradictory views and hypotheses.
Also, a broad topic will not allow you to conduct an in-depth, personal interpretation within the word limit recommended for EE .
Additionally, you should avoid investigating issues that extend outside the bounds of mainstream science, such as metaphysics or pseudoscience. Examples include of investigative issues include:
- Extrasensory experience
- The relationship between physics and the existence of God
- The mysterious forces of pyramids
The IB board considers it helpful if you can specify the subject further in the form of a research question, followed by a statement of purpose that indicates the approach you will employ to answer the question.
If you’re going to focus on an experimental essay, you will need to select a more practical experiment that does not need substantial amounts of time for equipment building.
In some instances, more advanced equipment might create constraints and inhibit the comprehension of a phenomenon. Successful trials will generate the data required for a sound analysis reasonably quickly.
Some Physics Extended Essay topics may not be acceptable for examination due to safety concerns.
For example, you need to avoid topics that requires experiments using hazardous or carcinogenic chemicals, radioactive materials, lasers, microwaves, ultraviolet light, noise, or heavy equipment.
Physics Extended Essay Writing Help
Do you need help with your Physics Extended Essay but have no idea where to get it online? You can contact Help for Assessment right now.
The EE writers at Help for Assessment are ready to offer you the kind of writing necessary to complete your Physics Extended Essay homework on time and score good marks. Whether you need help with topic selection and writing or you already have a topic to work on, you can hire one of our top writers to help you get the work done.
Our Physics Extended Essay writing service involves topic selection, development of a research issue, in-depth research, and writing.
We pay close attention to the Extended Essay requirements to ensure the paper we deliver to you meets the assignment’s scope.
Given that Physics is a technical subject, you shouldn’t wait until the last minute to start working on it. Get started early with our writing help.
How to Write a Physics Extended Essay
The primary goal of this type of assignment is to demonstrate a clear understanding of the topic you’ve selected to work on. So to ensure you write the best EE in the subject:
1. Choose the Right Angle to Direct Your Assignment
It’s important to note that your Physic extended essay will need to express an in-depth study into the history or theory of the particular topic. However, it’s different for long assignments I the subject.
For long subjects, you may focus on:
- Experimental physics: This area focuses on the design and execution of an experiment, followed by personal data collecting and analysis.
- Data based physics: It focuses on location and extraction of non-student-collected raw or processed data, which is subsequently refined and analyzed.
- Theoretical physic: The focus is on the formulation of a quantitative or semi-quantitative description of a physical phenomenon, the application of the model, and the prediction of its behavior and limitations.
- Survey: It involves the construction of a coherent, organized, analytic, and supported (qualitative and quantitative) discussion of the issue
All long physics essays should include an overview of the work's scope and limits.
This should always include a study of any experimental design, data uncertainties and accuracy, mathematical approaches, links to theoretical models, and the dependability and quality of sources.
2. Give a Direct Analysis of Your Research Topic
The essay's body and progression should directly analyze the research topic.
Experimental essays can help students to demonstrate their critical thinking more clearly, but experimental activity aren’t necessary for the assignment.
However, you must provide a clear theoretical component for each empirical inquiry.
If you include any experimental effort in your Physics extended essay, ensure to document it thoroughly so that other researchers can produce it with identical findings and conclusions.
If you’ve opted to collect data from secondary sources, use it with extreme caution.
Ensure you provide a comprehensive evaluation of the location and credibility of the sources required for databased essays at the outset of the planning process.
You should apply the same scrutiny to this data and the experimental design as if you had gathered the data yourself.
3. Examine Your Research Techniques Thoroughly
A thorough examination of research techniques is necessary in a Physics extended essay.
That’s because it might reveal severe problems in experimental design or data collection that invalidate or at least limit the interpretation of the results completely or in part.
A purely empirical inquiry linking two or three variables without a theoretical basis is unsatisfactory.
For example, if you utilize a computer simulation of a theoretical model, you should extensively analyze the methods devised or implemented and you should compare simulated results to actual events to determine their validity.
If you’re going to write an essay that contains a theoretical model that describes a physical occurrence, your planning should include the beginning postulates, the important stages for running the model, and the simulation results collected.
4. Explain Your Literary Sources Thoroughly
In theoretical, data based, or survey extended essay in Physics, you must include an assessment of the quality and dependability of the literary sources.
You have to have sufficient knowledge of the issue to evaluate the credibility of the sources.
You can accomplish this by researching secondary sources or calculating independently.
Also, you should not be hesitant to discuss opposing viewpoints and share your own thoughts with supporting evidence.
In survey or theoretical essays, appropriate preparation requires examining source material in light of the research topic so that you utilize the opinions of other scientists to support your own thesis, rather than as a replacement for it.
5. Make Your Analysis Clear and Concise
An analysis must supplement data or information rather than merely duplicate it. And you need to make sure you derive interpretations logically from facts or information.
Your essay needs to include the avoidance of unfounded, far-fetched extrapolation and the acknowledgement of flaws.
The commentary should not simply a restatement of the data. It should produce a strong interpretation of the results, which ones can compare to previously published research on the subject.
Related Readings
- Your Only Guide to EE in Computer Science
- Learn About IB Math EE Here
- About IB Chemistry EE
Physics Extended Essay Assessment Criteria
The following is the assessment criteria used to gauge the depth and comprehensiveness of your Physics Extended Essay:
Criterion A: Research Question
The criterion requires that your research topic must be relevant to physics as a science, centered on physics and not on ancillary problems, and clearly recognized and prominently presented in the introduction.
Criterion B: Introduction
The introduction should tie the research question to the existing body of knowledge on the topic.
You should not include your personal experience or viewpoint here, as it’s highly unlikely to be helpful at this point.
You should place the pertinent physics concepts within the context of the issue. You need to view the introduction as a chance to be more precise rather than appearing bloaty.
Criterion C: Investigation
The strategy you use for investigation should show a clear pertinent theory as well as an understanding of the inherent uncertainties and limits of procedures and equipment used in the Physics Extended Essay.
Criterion D: Knowledge and Understanding of the Research Issue
The knowledge and comprehension exhibited in a physics essay should go beyond the course or laboratory.
You have to demonstrate that you can use the essential information obtained in the classroom in a new physical environment that necessitates its interpretation.
Criterion E: Reasoned Argument
Students should be aware of the necessity to provide a developing argument in the body of their writings.
In order to persuade the reader of the correctness of one's opinions, you have to include logical and helpful arguments in your work.
Criterion F: Use of Analytical and Evaluative Skills
You must demonstrate a comprehension of the mathematical and statistical correlations automatically generated by systems.
It is necessary to have a thorough and firm awareness of the inherent constraints of an inquiry and their consequences for the results obtained.
Criterion G: Use of Language and Terminologies Relevant to the Subject
The usage of scientific terminology is required throughout your Physics Extended Essay.
To understand the right format, structure, and presentation of a scientific paper, you should study articles from reputable scientific journals and periodicals.
The essential quality of the language is exactness and common expressions such as "function of" and "proportional to" must have specific meanings. You should specify any symbols used in context.
Criterion H: Conclusion
Make sure that the conclusion of your Physics EE develops from the argument and not introduce new or irrelevant material.
It should not duplicate the information presented in the introduction, but rather give a new synthesis in light of the conversation.
The conclusion should indicate how uncertainties in experimental data, the constraints of a model or experimental design, or the reliability of sources affected the outcomes of your work.
Criterion I: Formal Presentation
This criterion addresses the extent to which the essay complies with academic norms about the format of research papers.
About the author
Antony W is a professional writer and coach at Help for Assessment. He spends countless hours every day researching and writing great content filled with expert advice on how to write engaging essays, research papers, and assignments.
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The Complete IB Extended Essay Guide: Examples, Topics, and Ideas
International Baccalaureate (IB)
IB students around the globe fear writing the Extended Essay, but it doesn't have to be a source of stress! In this article, I'll get you excited about writing your Extended Essay and provide you with the resources you need to get an A on it.
If you're reading this article, I'm going to assume you're an IB student getting ready to write your Extended Essay. If you're looking at this as a potential future IB student, I recommend reading our introductory IB articles first, including our guide to what the IB program is and our full coverage of the IB curriculum .
IB Extended Essay: Why Should You Trust My Advice?
I myself am a recipient of an IB Diploma, and I happened to receive an A on my IB Extended Essay. Don't believe me? The proof is in the IBO pudding:
If you're confused by what this report means, EE is short for Extended Essay , and English A1 is the subject that my Extended Essay topic coordinated with. In layman's terms, my IB Diploma was graded in May 2010, I wrote my Extended Essay in the English A1 category, and I received an A grade on it.
What Is the Extended Essay in the IB Diploma Programme?
The IB Extended Essay, or EE , is a mini-thesis you write under the supervision of an IB advisor (an IB teacher at your school), which counts toward your IB Diploma (learn more about the major IB Diploma requirements in our guide) . I will explain exactly how the EE affects your Diploma later in this article.
For the Extended Essay, you will choose a research question as a topic, conduct the research independently, then write an essay on your findings . The essay itself is a long one—although there's a cap of 4,000 words, most successful essays get very close to this limit.
Keep in mind that the IB requires this essay to be a "formal piece of academic writing," meaning you'll have to do outside research and cite additional sources.
The IB Extended Essay must include the following:
- A title page
- Contents page
- Introduction
- Body of the essay
- References and bibliography
Additionally, your research topic must fall into one of the six approved DP categories , or IB subject groups, which are as follows:
- Group 1: Studies in Language and Literature
- Group 2: Language Acquisition
- Group 3: Individuals and Societies
- Group 4: Sciences
- Group 5: Mathematics
- Group 6: The Arts
Once you figure out your category and have identified a potential research topic, it's time to pick your advisor, who is normally an IB teacher at your school (though you can also find one online ). This person will help direct your research, and they'll conduct the reflection sessions you'll have to do as part of your Extended Essay.
As of 2018, the IB requires a "reflection process" as part of your EE supervision process. To fulfill this requirement, you have to meet at least three times with your supervisor in what the IB calls "reflection sessions." These meetings are not only mandatory but are also part of the formal assessment of the EE and your research methods.
According to the IB, the purpose of these meetings is to "provide an opportunity for students to reflect on their engagement with the research process." Basically, these meetings give your supervisor the opportunity to offer feedback, push you to think differently, and encourage you to evaluate your research process.
The final reflection session is called the viva voce, and it's a short 10- to 15-minute interview between you and your advisor. This happens at the very end of the EE process, and it's designed to help your advisor write their report, which factors into your EE grade.
Here are the topics covered in your viva voce :
- A check on plagiarism and malpractice
- Your reflection on your project's successes and difficulties
- Your reflection on what you've learned during the EE process
Your completed Extended Essay, along with your supervisor's report, will then be sent to the IB to be graded. We'll cover the assessment criteria in just a moment.
We'll help you learn how to have those "lightbulb" moments...even on test day!
What Should You Write About in Your IB Extended Essay?
You can technically write about anything, so long as it falls within one of the approved categories listed above.
It's best to choose a topic that matches one of the IB courses , (such as Theatre, Film, Spanish, French, Math, Biology, etc.), which shouldn't be difficult because there are so many class subjects.
Here is a range of sample topics with the attached extended essay:
- Biology: The Effect of Age and Gender on the Photoreceptor Cells in the Human Retina
- Chemistry: How Does Reflux Time Affect the Yield and Purity of Ethyl Aminobenzoate (Benzocaine), and How Effective is Recrystallisation as a Purification Technique for This Compound?
- English: An Exploration of Jane Austen's Use of the Outdoors in Emma
- Geography: The Effect of Location on the Educational Attainment of Indigenous Secondary Students in Queensland, Australia
- Math: Alhazen's Billiard Problem
- Visual Arts: Can Luc Tuymans Be Classified as a Political Painter?
You can see from how varied the topics are that you have a lot of freedom when it comes to picking a topic . So how do you pick when the options are limitless?
How to Write a Stellar IB Extended Essay: 6 Essential Tips
Below are six key tips to keep in mind as you work on your Extended Essay for the IB DP. Follow these and you're sure to get an A!
#1: Write About Something You Enjoy
You can't expect to write a compelling essay if you're not a fan of the topic on which you're writing. For example, I just love British theatre and ended up writing my Extended Essay on a revolution in post-WWII British theatre. (Yes, I'm definitely a #TheatreNerd.)
I really encourage anyone who pursues an IB Diploma to take the Extended Essay seriously. I was fortunate enough to receive a full-tuition merit scholarship to USC's School of Dramatic Arts program. In my interview for the scholarship, I spoke passionately about my Extended Essay; thus, I genuinely think my Extended Essay helped me get my scholarship.
But how do you find a topic you're passionate about? Start by thinking about which classes you enjoy the most and why . Do you like math classes because you like to solve problems? Or do you enjoy English because you like to analyze literary texts?
Keep in mind that there's no right or wrong answer when it comes to choosing your Extended Essay topic. You're not more likely to get high marks because you're writing about science, just like you're not doomed to failure because you've chosen to tackle the social sciences. The quality of what you produce—not the field you choose to research within—will determine your grade.
Once you've figured out your category, you should brainstorm more specific topics by putting pen to paper . What was your favorite chapter you learned in that class? Was it astrophysics or mechanics? What did you like about that specific chapter? Is there something you want to learn more about? I recommend spending a few hours on this type of brainstorming.
One last note: if you're truly stumped on what to research, pick a topic that will help you in your future major or career . That way you can use your Extended Essay as a talking point in your college essays (and it will prepare you for your studies to come too!).
#2: Select a Topic That Is Neither Too Broad nor Too Narrow
There's a fine line between broad and narrow. You need to write about something specific, but not so specific that you can't write 4,000 words on it.
You can't write about WWII because that would be a book's worth of material. You also don't want to write about what type of soup prisoners of war received behind enemy lines, because you probably won’t be able to come up with 4,000 words of material about it. However, you could possibly write about how the conditions in German POW camps—and the rations provided—were directly affected by the Nazis' successes and failures on the front, including the use of captured factories and prison labor in Eastern Europe to increase production. WWII military history might be a little overdone, but you get my point.
If you're really stuck trying to pinpoint a not-too-broad-or-too-narrow topic, I suggest trying to brainstorm a topic that uses a comparison. Once you begin looking through the list of sample essays below, you'll notice that many use comparisons to formulate their main arguments.
I also used a comparison in my EE, contrasting Harold Pinter's Party Time with John Osborne's Look Back in Anger in order to show a transition in British theatre. Topics with comparisons of two to three plays, books, and so on tend to be the sweet spot. You can analyze each item and then compare them with one another after doing some in-depth analysis of each individually. The ways these items compare and contrast will end up forming the thesis of your essay!
When choosing a comparative topic, the key is that the comparison should be significant. I compared two plays to illustrate the transition in British theatre, but you could compare the ways different regional dialects affect people's job prospects or how different temperatures may or may not affect the mating patterns of lightning bugs. The point here is that comparisons not only help you limit your topic, but they also help you build your argument.
Comparisons are not the only way to get a grade-A EE, though. If after brainstorming, you pick a non-comparison-based topic and are still unsure whether your topic is too broad or narrow, spend about 30 minutes doing some basic research and see how much material is out there.
If there are more than 1,000 books, articles, or documentaries out there on that exact topic, it may be too broad. But if there are only two books that have any connection to your topic, it may be too narrow. If you're still unsure, ask your advisor—it's what they're there for! Speaking of advisors...
Don't get stuck with a narrow topic!
#3: Choose an Advisor Who Is Familiar With Your Topic
If you're not certain of who you would like to be your advisor, create a list of your top three choices. Next, write down the pros and cons of each possibility (I know this sounds tedious, but it really helps!).
For example, Mr. Green is my favorite teacher and we get along really well, but he teaches English. For my EE, I want to conduct an experiment that compares the efficiency of American electric cars with foreign electric cars.
I had Ms. White a year ago. She teaches physics and enjoyed having me in her class. Unlike Mr. Green, Ms. White could help me design my experiment.
Based on my topic and what I need from my advisor, Ms. White would be a better fit for me than would Mr. Green (even though I like him a lot).
The moral of my story is this: do not just ask your favorite teacher to be your advisor . They might be a hindrance to you if they teach another subject. For example, I would not recommend asking your biology teacher to guide you in writing an English literature-based EE.
There can, of course, be exceptions to this rule. If you have a teacher who's passionate and knowledgeable about your topic (as my English teacher was about my theatre topic), you could ask that instructor. Consider all your options before you do this. There was no theatre teacher at my high school, so I couldn't find a theatre-specific advisor, but I chose the next best thing.
Before you approach a teacher to serve as your advisor, check with your high school to see what requirements they have for this process. Some IB high schools require your IB Extended Essay advisor to sign an Agreement Form , for instance.
Make sure that you ask your IB coordinator whether there is any required paperwork to fill out. If your school needs a specific form signed, bring it with you when you ask your teacher to be your EE advisor.
#4: Pick an Advisor Who Will Push You to Be Your Best
Some teachers might just take on students because they have to and aren't very passionate about reading drafts, only giving you minimal feedback. Choose a teacher who will take the time to read several drafts of your essay and give you extensive notes. I would not have gotten my A without being pushed to make my Extended Essay draft better.
Ask a teacher that you have experience with through class or an extracurricular activity. Do not ask a teacher that you have absolutely no connection to. If a teacher already knows you, that means they already know your strengths and weaknesses, so they know what to look for, where you need to improve, and how to encourage your best work.
Also, don't forget that your supervisor's assessment is part of your overall EE score . If you're meeting with someone who pushes you to do better—and you actually take their advice—they'll have more impressive things to say about you than a supervisor who doesn't know you well and isn't heavily involved in your research process.
Be aware that the IB only allows advisors to make suggestions and give constructive criticism. Your teacher cannot actually help you write your EE. The IB recommends that the supervisor spends approximately two to three hours in total with the candidate discussing the EE.
#5: Make Sure Your Essay Has a Clear Structure and Flow
The IB likes structure. Your EE needs a clear introduction (which should be one to two double-spaced pages), research question/focus (i.e., what you're investigating), a body, and a conclusion (about one double-spaced page). An essay with unclear organization will be graded poorly.
The body of your EE should make up the bulk of the essay. It should be about eight to 18 pages long (again, depending on your topic). Your body can be split into multiple parts. For example, if you were doing a comparison, you might have one third of your body as Novel A Analysis, another third as Novel B Analysis, and the final third as your comparison of Novels A and B.
If you're conducting an experiment or analyzing data, such as in this EE , your EE body should have a clear structure that aligns with the scientific method ; you should state the research question, discuss your method, present the data, analyze the data, explain any uncertainties, and draw a conclusion and/or evaluate the success of the experiment.
#6: Start Writing Sooner Rather Than Later!
You will not be able to crank out a 4,000-word essay in just a week and get an A on it. You'll be reading many, many articles (and, depending on your topic, possibly books and plays as well!). As such, it's imperative that you start your research as soon as possible.
Each school has a slightly different deadline for the Extended Essay. Some schools want them as soon as November of your senior year; others will take them as late as February. Your school will tell you what your deadline is. If they haven't mentioned it by February of your junior year, ask your IB coordinator about it.
Some high schools will provide you with a timeline of when you need to come up with a topic, when you need to meet with your advisor, and when certain drafts are due. Not all schools do this. Ask your IB coordinator if you are unsure whether you are on a specific timeline.
Below is my recommended EE timeline. While it's earlier than most schools, it'll save you a ton of heartache (trust me, I remember how hard this process was!):
- January/February of Junior Year: Come up with your final research topic (or at least your top three options).
- February of Junior Year: Approach a teacher about being your EE advisor. If they decline, keep asking others until you find one. See my notes above on how to pick an EE advisor.
- April/May of Junior Year: Submit an outline of your EE and a bibliography of potential research sources (I recommend at least seven to 10) to your EE advisor. Meet with your EE advisor to discuss your outline.
- Summer Between Junior and Senior Year: Complete your first full draft over the summer between your junior and senior year. I know, I know—no one wants to work during the summer, but trust me—this will save you so much stress come fall when you are busy with college applications and other internal assessments for your IB classes. You will want to have this first full draft done because you will want to complete a couple of draft cycles as you likely won't be able to get everything you want to say into 4,000 articulate words on the first attempt. Try to get this first draft into the best possible shape so you don't have to work on too many revisions during the school year on top of your homework, college applications, and extracurriculars.
- August/September of Senior Year: Turn in your first draft of your EE to your advisor and receive feedback. Work on incorporating their feedback into your essay. If they have a lot of suggestions for improvement, ask if they will read one more draft before the final draft.
- September/October of Senior Year: Submit the second draft of your EE to your advisor (if necessary) and look at their feedback. Work on creating the best possible final draft.
- November-February of Senior Year: Schedule your viva voce. Submit two copies of your final draft to your school to be sent off to the IB. You likely will not get your grade until after you graduate.
Remember that in the middle of these milestones, you'll need to schedule two other reflection sessions with your advisor . (Your teachers will actually take notes on these sessions on a form like this one , which then gets submitted to the IB.)
I recommend doing them when you get feedback on your drafts, but these meetings will ultimately be up to your supervisor. Just don't forget to do them!
The early bird DOES get the worm!
How Is the IB Extended Essay Graded?
Extended Essays are graded by examiners appointed by the IB on a scale of 0 to 34 . You'll be graded on five criteria, each with its own set of points. You can learn more about how EE scoring works by reading the IB guide to extended essays .
- Criterion A: Focus and Method (6 points maximum)
- Criterion B: Knowledge and Understanding (6 points maximum)
- Criterion C: Critical Thinking (12 points maximum)
- Criterion D: Presentation (4 points maximum)
- Criterion E: Engagement (6 points maximum)
How well you do on each of these criteria will determine the final letter grade you get for your EE. You must earn at least a D to be eligible to receive your IB Diploma.
Although each criterion has a point value, the IB explicitly states that graders are not converting point totals into grades; instead, they're using qualitative grade descriptors to determine the final grade of your Extended Essay . Grade descriptors are on pages 102-103 of this document .
Here's a rough estimate of how these different point values translate to letter grades based on previous scoring methods for the EE. This is just an estimate —you should read and understand the grade descriptors so you know exactly what the scorers are looking for.
Here is the breakdown of EE scores (from the May 2021 bulletin):
How Does the Extended Essay Grade Affect Your IB Diploma?
The Extended Essay grade is combined with your TOK (Theory of Knowledge) grade to determine how many points you get toward your IB Diploma.
To learn about Theory of Knowledge or how many points you need to receive an IB Diploma, read our complete guide to the IB program and our guide to the IB Diploma requirements .
This diagram shows how the two scores are combined to determine how many points you receive for your IB diploma (3 being the most, 0 being the least). In order to get your IB Diploma, you have to earn 24 points across both categories (the TOK and EE). The highest score anyone can earn is 45 points.
Let's say you get an A on your EE and a B on TOK. You will get 3 points toward your Diploma. As of 2014, a student who scores an E on either the extended essay or TOK essay will not be eligible to receive an IB Diploma .
Prior to the class of 2010, a Diploma candidate could receive a failing grade in either the Extended Essay or Theory of Knowledge and still be awarded a Diploma, but this is no longer true.
Figuring out how you're assessed can be a little tricky. Luckily, the IB breaks everything down here in this document . (The assessment information begins on page 219.)
40+ Sample Extended Essays for the IB Diploma Programme
In case you want a little more guidance on how to get an A on your EE, here are over 40 excellent (grade A) sample extended essays for your reading pleasure. Essays are grouped by IB subject.
- Business Management 1
- Chemistry 1
- Chemistry 2
- Chemistry 3
- Chemistry 4
- Chemistry 5
- Chemistry 6
- Chemistry 7
- Computer Science 1
- Economics 1
- Design Technology 1
- Design Technology 2
- Environmental Systems and Societies 1
- Geography 1
- Geography 2
- Geography 3
- Geography 4
- Geography 5
- Geography 6
- Literature and Performance 1
- Mathematics 1
- Mathematics 2
- Mathematics 3
- Mathematics 4
- Mathematics 5
- Philosophy 1
- Philosophy 2
- Philosophy 3
- Philosophy 4
- Philosophy 5
- Psychology 1
- Psychology 2
- Psychology 3
- Psychology 4
- Psychology 5
- Social and Cultural Anthropology 1
- Social and Cultural Anthropology 2
- Social and Cultural Anthropology 3
- Sports, Exercise and Health Science 1
- Sports, Exercise and Health Science 2
- Visual Arts 1
- Visual Arts 2
- Visual Arts 3
- Visual Arts 4
- Visual Arts 5
- World Religion 1
- World Religion 2
- World Religion 3
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High scoring IB Physics Extended Essay examples. See what past students did and make your Physics EE perfect by learning from examiner commented examples!
Are you struggling to find a topic for your Physics Extended Essay? Don't worry Clastify is here to help. Below you can find a list of EE descriptions with linked exemplars.
Find a curated list of Physics Extended Essay topics for the IB program. Gain insights and inspiration for your research project. Choosing the right topic for your IB Physics Extended Essay is crucial for reflecting your knowledge and enthusiasm for the subject.
Each of these topics can be tailored to fit the requirements of an IB Physics extended essay, with the research question guiding the experimental design, data collection, and analysis. If you are interested, we also have a list of potential Physics IA topic ideas for you.
Check out our comprehensive guide for IB students on how to write the Physics extended essay. From topic selection to final analysis, we've got you covered. Skip to content
The extended essay is an independent, self-directed piece of research, finishing with a 4,000-word paper. One component of the International Baccalaureate® (IB) Diploma Programme (DP) core, the extended essay is mandatory for all students. Read about the extended essay in greater detail.
Are you preparing to tackle your IB Physics Extended Essay and looking for impactful topics, insightful writing tips, and expert guidance? You've landed in the right place! This post will provide you with essential information and strategies to help you craft a compelling IB Physics EE.
In this guide, you’ll learn everything you need to know about Physics Extended Essay in IB. We’ll look at: What Physics EE is all about; How to choose a topic; The right approach to handling your topic and; Physics EE assessment criteria; What’s Physics EE in IB?
Want help on the IB Extended Essay? Here's our complete guide, full of example ideas, essay topics, timeline, step by step plans to get a great score on your essay.
Learn the step-by-step approach to creating the perfect IB Physics Extended Essay (EE) research question. Get your starting point to a top-scoring IB Physics EE