AP Physics 2: Algebra-Based FRQ Room

Airflow and Lift over an Aerofoil

This problem explores how differences in air velocity over and under an airplane wing create lift, u

Airflow and Lift over an Airfoil

An experimental report claims that the difference in airspeed over the top and bottom surfaces of an

Analyzing Submerged Structures in Fluids

A marine structure is designed to float partially submerged in a lake. The structure has a total mas

Application of Bernoulli’s Equation in Fluid Flow

A researcher studies water flow through a pipe system that gradually narrows. Bernoulli’s equation,

Bernoulli's Equation with Incorrect Height Reference

A student constructs an experiment using a pipe system with both horizontal and vertical segments to

Bernoulli’s Principle and Air Flow Over an Airfoil

An airfoil (wing cross-section) diagram shows streamlines of air with different velocities above and

Bernoulli's Principle and Aircraft Lift

Air flows over the upper and lower surfaces of an airplane wing. In a certain section along the wing

Buoyancy and Floatation Analysis

A wooden block used in an experiment has a mass of 150 kg and a volume of 0.75 m³. It is placed in a

Buoyancy and Floating Objects

An object with a mass of 150 kg and a volume of 0.75 m³ is placed in a fluid with a density of 800 k

Buoyancy and Immersion Fraction

A homogeneous solid object has a mass of $$200$$ kg and a volume of $$1.0$$ m³. It is placed in two

Buoyancy Experiment: Verifying Archimedes' Principle

Design an experiment to measure the buoyant force on objects immersed in different fluids and thereb

Buoyant Stability and Metacentric Height in Floating Bodies

A floating vessel is designed with specific dimensions to ensure stability. A diagram of the vessel’

Characterizing Fluid Flow with Reynolds Number

A research group claims that in a pipe with a diameter of 0.1 m, water flowing at 1 m/s has a Reynol

Comparative Analysis: Density and Fluid Compressibility

This problem probes the conceptual differences between liquids and gases with respect to compressibi

Continuity Equation and Flow Rate Through a Pipe

Water flows through a horizontal pipe that changes diameter. At section 1, the pipe has a radius of

Density Determination and Fluid Identification

This problem focuses on calculating density and using that result to discuss buoyancy. Answer the fo

Density Determination Experiment

A student performs an experiment to determine the density of three different liquids by measuring sm

Density Determination from Experimental Data

In an experiment to measure the density of various liquids, a student recorded the following data:

Density Determination via Fluid Displacement

Design an experiment to measure the density of an irregularly shaped object using the method of flui

Density Measurement Using a Hydrometer

A hydrometer is an instrument that measures liquid density by floating at a level where the buoyant

Density Variation in Immiscible Fluids

An object is submerged partly in oil and partly in water. A table provides mass and volume data for

Designing a Wind Tunnel Experiment to Validate Bernoulli's Effect

A researcher is tasked with designing a wind tunnel experiment to validate Bernoulli’s effect on a s

Designing an Experiment to Validate the Continuity Equation

An engineering team aims to validate the continuity equation for an incompressible fluid flowing thr

Dynamic Pressure and Nozzle Flow

An industrial nozzle is designed to eject a high-speed jet of water. The inlet pressure is measured

Effect of Fluid Density on Buoyancy Force

An object with a fixed volume of $$0.1 \; m^3$$ is fully submerged in two different fluids. Answer t

Evaluation of Laminar vs. Turbulent Flow in Viscous Fluids

A research paper claims that water flowing in a pipe with a diameter of 5 cm at a velocity of 2 m/s

Experimental Analysis of Flow Speed Using Continuity Equation

In an experiment, water flows through a horizontal pipeline with varying cross-sectional areas. The

Floating Object Buoyancy

An object has a mass of 150 kg and occupies a volume of 0.75 m³. It is floating in ethyl alcohol wit

Flow Rate Analysis in Variable Cross-Section Pipes

A water flow experiment is conducted using a pipe with two sections of different diameters. The meas

Flow Rate in a Constricted Pipe

Consider a circular pipe carrying water. The pipe has a radius of 2 cm and the water flows at a spee

Flow Rate in a Constricted Pipe

This question applies the continuity equation to determine flow rates and velocities in a pipe with

Flow Speed Adjustments Due to Pipe Diameter Variations

A water pipeline experiences variations in diameter. The following table lists measurements for two

Fluid Acceleration in a Narrowing Tube: Misapplication of Energy Conservation

A student sets up an experiment to examine how water accelerates as it passes through a tube that na

Fluid Flow in Circular and Rectangular Channels

Two channels are used to transport water: Channel 1 is circular with a diameter $$d$$, and Channel 2

Fluid Flow Through Porous Media: Investigating Darcy's Law

Design an experiment to study the flow of a fluid through a porous medium (such as packed sand) and

Fluid Statics in Deep-sea Conditions

A submersible is designed to operate at extreme depths in the ocean. At a depth of $$4000 \cdot m$$

Graphical Analysis of Hydrostatic Pressure in a Water Tower

A water tower supplies water to a town, and the gauge pressure measured in the town varies with the

Impact of Fluid Density on Buoyancy Forces

A block of wood with a volume of 1.0 m³ and a density of 600 kg/m³ floats in freshwater (density 100

Investigating the Effects of Fluid Density on Buoyancy of a Hot Air Balloon

A small-scale hot air balloon model has a volume of $$50 \cdot m^3$$. During a test, the density of

Lab Analysis: Determining the Density of an Unknown Fluid Using a Jet of Water

In a laboratory experiment, a horizontal jet of water is directed into a shallow container filled wi

Manometer Pressure Measurements

An experiment uses a U-tube manometer filled with water to measure pressure differences in a fluid s

Measurement Uncertainty in Fluid Density

In a laboratory experiment, the density of an unknown fluid is measured using a pycnometer. The mass

Open Tank Pressure and Total Pressure Calculation

A tank is open to the atmosphere and is filled with water. The total (absolute) pressure at any dept

Oscillatory Flow in a U-Tube

A U-tube with a uniform cross-sectional area contains water (density = 1000 kg/m³) such that the tot

Pipeline Flow Optimization in a Water Treatment Facility

A water treatment facility operates a pipeline that has three sections with varying diameters. The f

Pitot Tube Velocity Measurement

A Pitot tube is used to determine the velocity of air. The difference between the stagnation pressur

Pressure Distribution in a Fluid at Rest

Consider a tank filled with a liquid of density $$\rho$$. The pressure at a given depth is described

Pressure Distribution on a Submerged Plate

A researcher is studying the pressure distribution on a vertical rectangular plate submerged in wate

Pressure in a Fluid with Depth-Dependent Density

In a non-uniform fluid, the density varies with depth according to $$\rho(y) = \rho_0 + \alpha y$$,

Siphon Action Analysis

A siphon is used to transfer water from a container. The highest point of the siphon tube is 2 m abo

Submerged Volume Determination Error in Buoyancy Experiment

A student designs an experiment to determine what fraction of an object's volume is submerged when i

Temperature Effects on Fluid Density and Pressure

A particular fluid has a density of 950 kg/m³ at 20°C and its density decreases by 0.2% for every 1°

Temperature Effects on Fluid Pressure

Changes in temperature can affect the density of a fluid, and therefore the hydrostatic pressure at

Time-Varying Fluid Flow Analysis

In an experiment, the volume flow rate of water through a horizontal pipe is found to vary with time

Viscosity Neglect in Pipeline Flow Rate Experiment

A student conducts an experiment to measure the volume flow rate of oil through a pipeline with sect

Water Rocket Thrust Analysis

A water rocket uses pressurized water expelled through a nozzle to generate thrust. A popular claim

Wind Tunnel Dynamic Pressure Measurement Error

A student performs an experiment in a wind tunnel to measure dynamic pressure using a pitot tube. Th

Adiabatic vs. Isothermal Transition Timing Experiment Error

A student designs an experiment to compare adiabatic and isothermal expansions of a gas by rapidly m

Analysis of a Composite Thermodynamic Cycle

A gas undergoes a composite cycle consisting of an isobaric expansion, an adiabatic compression, and

Analysis of a P-V Diagram for Isothermal and Adiabatic Processes

This question examines a P-V diagram that displays two distinct thermodynamic processes: one isother

Analysis of Thermodynamic Processes on a P–V Diagram

A researcher examines four thermodynamic processes (isothermal, adiabatic, isobaric, and isochoric)

Average Kinetic Energy and RMS Velocity in Gases

Using the kinetic theory of gases, consider a sample of an ideal gas at T = 300 K. (a) Calculate the

Conduction Heat Transfer Analysis

A metal rod is used to conduct heat between two reservoirs. The rod has a thermal conductivity of $$

Conduction Heat Transfer: Experimental Design for Material Thermal Conductivity Measurements

Heat conduction through materials depends on their thermal conductivity. Design an experiment to mea

Designing a Convection Experiment

Develop an experimental proposal to investigate how fluid temperature affects the rate of convective

Determining Force Exerted by Gas on a Container Lid

A cylindrical container with the following measured parameters is used in an experiment: the radius

Determining Molecular Mass of a Gas via Ideal Gas Law Measurements: Experimental Design

The molecular mass of a gas can be determined by measuring its pressure, volume, temperature, and th

Determining Specific Heat Capacity Through Comparative Heating

In a laboratory experiment, a student heats 200 g of water and 200 g of an unknown liquid with the s

Effect of Molar Mass on Gas Velocity

The relation $$v_{rms} = \sqrt{\frac{3 * k_{B} * T}{m}}$$ indicates that the molar mass of gas molec

Effect of Molecular Mass on RMS Velocity

Examine how the molecular mass of a gas affects its root mean square velocity, given by the equation

Entropy and the Second Law

Consider a process where 200 J of heat is transferred from a reservoir at 500 K to a reservoir at 30

Entropy Change in a Heating Process

An ideal gas (1 mole) undergoes a reversible isobaric process in which its temperature increases fro

Entropy Changes in Thermodynamic Processes

A researcher examines a system that undergoes two processes: the system absorbs heat and then reject

First Law Application: Heat Input and Work Output

During an experiment, a system undergoes a process in which 600 J of heat is supplied and it perform

Heat Engine Efficiency and Energy Analysis

A heat engine operates in cycles, drawing heat from a high-temperature reservoir and rejecting part

Heat Engines and Maximum Efficiency

No heat engine can achieve 100% efficiency due to inherent energy losses. (a) Explain why complete c

Heat Transfer by Conduction in Building Insulation

A building wall is made of a material with thermal conductivity $$k = 0.04\;W/(m*K)$$. The wall has

Heat Transfer by Radiation

Unlike conduction and convection, heat transfer by radiation involves electromagnetic waves. (a) Wri

Heating a Gas: Conduction vs. Convection

Heat can be transferred via different mechanisms. In the context of a gas being heated, consider the

Ideal Gas Law Calibration Experiment Error

A student conducts an experiment to verify the Ideal Gas Law using a cylindrical container with a mo

Identifying Thermodynamic Processes

A series of experiments with a gas record measurements of pressure, volume, and temperature. The dat

Investigating Pressure-Temperature Relationship in a Closed Gas Container

In a constant-volume container, the pressure of a confined gas changes as the temperature varies. De

Investigation of Pressure in Confined Gases

A researcher conducts an experiment using a sealed, rigid container fitted with a pressure sensor to

Isothermal and Adiabatic Processes in Ideal Gases

An ideal gas undergoes an isothermal expansion from an initial volume $$V_1$$ to a final volume $$V_

Isothermal vs. Adiabatic Processes

In a laboratory experiment, a gas is compressed in a piston under two different conditions: one proc

Maxwell-Boltzmann Distribution Analysis

The Maxwell-Boltzmann distribution provides a statistical description of the speeds of molecules in

Phase Diagrams and Critical Points

Phase diagrams provide insight into the states of a pure substance under various conditions. (a) Des

Real Gas Behavior vs. Ideal Gas Law: Experiment Design to Evaluate Deviations

While the ideal gas law (PV = nRT) works well for many gases, real gases deviate from this behavior

Refrigeration Cycle and Coefficient of Performance

A refrigeration cycle removes heat from a cold reservoir using work. (a) Describe the basic steps of

Systematic Investigation of Root Mean Square Velocity

An experiment is set up to investigate the root mean square velocity ($$v_{rms}$$) of gas molecules

Thermodynamic Process Comparison: Isothermal vs Adiabatic

Consider an ideal gas undergoing two different expansion processes: an isothermal expansion and an a

Work Done Along Different Thermodynamic Paths

Consider a gas that changes state from a to b via two different paths. Path 1: An isobaric expansion

Analyzing Electric Field Variation Above a Charged Plate

An experiment measured the electric potential at various distances from a large, uniformly charged p

Application of Coulomb's Law

Coulomb’s Law states that the magnitude of the electric force between two point charges is given by

Balancing Forces in a Uniform Electric Field

In an experiment to study the balance between gravitational and electric forces, a charged object of

Charge Transfer and Work Calculation

Consider a system where two fixed charges create an electric potential difference between two points

Charged Object Equilibrium in a Uniform Electric Field

An experiment is set up to determine the amount of charge required on a small object so that the upw

Charged Particle Acceleration in a Uniform Electric Field

A charged particle is accelerated in a uniform electric field. The following table gives its measure

Charging by Induction: Conductors vs. Insulators

A negatively charged rod is brought near two separate initially neutral spheres: one made of metal (

Charging Methods and Redistribution of Charge

Two identical, initially neutral conducting spheres are brought into contact. Then, a positively cha

Dielectric Effects on Capacitor Behavior

A parallel-plate capacitor initially has a vacuum between its plates and is charged to a voltage V₀.

Dipole Electric Field Analysis

Consider an electric dipole formed by two point charges of equal magnitude $$|Q| = 4.0 \times 10^{-9

Dipole Electric Field Analysis

This question examines the calculation and analysis of the electric field created by an electric dip

Electric Dipole Torque in a Uniform Field

An electric dipole with dipole moment $$p = 3.0 \times 10^{-29}\,C\cdot m$$ is placed in a uniform e

Electric Field due to a Point Charge in Different Media

Consider a point charge Q = 2.0 × 10⁻⁹ C placed in free space.

Electric Field from Multiple Point Charges

This question involves computing the net electric field at a specific point due to three point charg

Electric Field Lines and Equipotential Mapping Misinterpretation

In a laboratory experiment, a student is tasked with mapping electric field lines and equipotential

Electric Field Mapping and Equipotential Surfaces

In an experiment, equipotential maps are generated for a charge configuration. These maps illustrate

Electric Field Mapping Experiment

A researcher employs a scanning probe to measure the local electric field near a large, charged plat

Electric Field Mapping in a Non-Uniform Field

A point charge is fixed on an insulating board. A voltage probe is used to measure the electric pote

Electric Potential Due to a Point Charge

Given a point charge Q = 2×10⁻⁹ C, determine the electric potential at a point located 2 cm from the

Electric Potential from Multiple Point Charges

Two fixed point charges are placed along the x-axis: $$q_1 = +3.0 \times 10^{-6}\,C$$ at $$x = 0\,m$

Energy Conversion in Point Charge Interaction

A fixed positive charge $$Q = +2.0 \times 10^{-6} \; C$$ creates an electric field in vacuum. A nega

Energy Storage in a Capacitor with a Dielectric

Consider a parallel-plate capacitor with vacuum between its plates given by the capacitance formula

Energy Stored in a Capacitor

A capacitor with a capacitance of 10 nF is charged to a potential difference of 500 V.

Energy Stored in a Capacitor: Discharge Process Oversight

An experiment is conducted to measure the energy stored in a charged capacitor. The capacitor is cha

Equilibrium of an Object in a Uniform Electric Field

An object of mass 5 g is suspended in a uniform electric field of $$1.0*10^{6}$$ N/C such that the u

Equipotential Curves for an Electric Dipole

An electric dipole consists of two equal and opposite charges separated by a small distance. (a) S

Force on Test Charge in a Uniform Electric Field

A test charge of $$+3.0*10^{-9}$$ C is placed in a uniform electric field of magnitude 400 N/C that

Fringing Fields in Parallel-Plate Capacitors

In a real parallel-plate capacitor, the electric field near the edges deviates from the ideal unifor

Motion of a Charged Particle in a Uniform Electric Field

A small charged particle with charge q = 2.0×10^-6 C and mass m = 2.0×10^-3 kg is released from rest

Multiple Charge System: Net Force on a Central Charge

Consider three point charges aligned on a straight line. Let $$Q_1 = +5\;\mu C$$, $$Q_2 = -3\;\mu C$

Parallel-Plate Capacitor Design

A researcher aims to design a parallel-plate capacitor in vacuum. The desired capacitance is $$15 \;

Proton–Electron Force Comparison in a Hydrogen Atom

In a hydrogen atom the proton and electron are separated by a Bohr radius of 0.5×10^-10 m. Given tha

RC Discharge of a Capacitor

A capacitor charged to an initial potential of 100 V is connected in series with a resistor, forming

Superposition of Electric Fields Experiment

Four identical positively charged spheres are fixed at the vertices of a square, and a negatively ch

Surface Charge Density and Electric Field Experiment

In an experiment, several large plates are charged to different surface charge densities, $$\sigma$$

Uniform Electric Field Balance Experiment

A large, positively charged horizontal plate produces a uniform electric field of magnitude $$E = 1.

Verification of Charge Quantization

A researcher performs an oil drop experiment to verify the quantization of electric charge. The meas

Work Done in a Uniform Electric Field

A positive charge $$q$$ is moved through a distance $$d$$ in a uniform electric field $$E$$. Analyze

Work in a Non-Uniform Electric Field

A researcher moves a charge in the non-uniform electric field generated by a fixed point charge. The

Work in a Radial Non-Uniform Electric Field

A positive test charge q is moved radially inward from a distance r₁ to a closer distance r₂ from a

Analysis of Ammeter and Voltmeter Placement

This question addresses the proper usage of ammeters and voltmeters in a circuit for accurate measur

Analysis of Variable Resistance in a Circuit

A circuit is set up with a rheostat (variable resistor) controlling the current through a motor powe

Analyzing Power Dissipation in a Resistor Network

Consider a resistor network connected to a $$12~V$$ battery.

Analyzing Series RC Circuit Transient Behavior

A series RC circuit is set up with a resistor and a capacitor connected to a 12 V battery. Initially

Battery Internal Resistance Analysis

A battery with an ideal electromotive force (EMF) of $$12\,V$$ has an internal resistance of $$1\,\O

Battery Internal Resistance and Power Delivery

A battery modeled as an ideal EMF source of 12 V in series with an internal resistance of 2 Ω is con

Battery Internal Resistance and Terminal Voltage Analysis

A battery can be modeled as an ideal electromotive force (EMF) in series with an internal resistance

Capacitor Discharging Analysis

A fully charged 12 V capacitor in an RC circuit is allowed to discharge through a resistor. The volt

Charging Behavior of an RC Circuit

A capacitor with capacitance $$C = 5 \text{ F}$$ is charged through a resistor of $$R = 3 \Omega$$ b

Comparative Analysis of Capacitor Charging Profiles

Two RC circuits are set up using identical resistor and capacitor values: $$R = 3 \Omega$$ and $$C =

Critical Analysis of a Circuit Simulation Software's Accuracy in Predicting Voltage Drops

A team of researchers claims that their circuit simulation software can accurately predict voltage d

Critically Evaluating the Role of Wire Material in Circuit Performance

A claim has been made that using wires made of materials with low resistivity, such as copper, enhan

Design and Analysis of a Flash Circuit for a Camera

A camera flash circuit uses a capacitor with capacitance $$C = 100\,\mu F$$, charged by a 300 V batt

Designing a Circuit for a Specific Equivalent Resistance

You are provided with resistors of values 50 Ω, 100 Ω, 200 Ω, and 400 Ω. Your task is to design a ci

Designing a Circuit for Energy Efficiency Testing

A recent study claims that by reconfiguring a circuit, the overall power loss in resistors can be mi

Determining Resistivity of Various Materials

Resistance (R) and resistivity (\(\rho\)) are related by the expression $$R = \rho*\frac{l}{A}$$. Yo

Effect of Adding a Parallel Resistor in a Series Circuit

Consider a circuit consisting of a 9 V battery connected in series with a 12 Ω resistor. A 24 Ω resi

Effects of Altering Capacitance on a Charged Capacitor

A capacitor with an initial capacitance of $$10\,\mu F$$ is charged to $$12\,V$$ by a battery, and t

Energy Storage and Power Dissipation in Capacitors

A capacitor with a capacitance of 50 μF is charged to a voltage of 10 V. Answer the following:

Equivalent Capacitance of Mixed Capacitor Networks

Three capacitors are connected in a network. Capacitor $$C_1 = 4\,\mu F$$ is connected in series wit

Evaluation of Circuit Performance with a Faulty Capacitor (Capacitor Failure Analysis)

A capacitor in an RC circuit, which is expected to be 47 μF, is suspected of being faulty due to lea

Experiment to Determine Battery Internal Resistance

Batteries can be modeled as an ideal electromotive force (EMF) in series with an internal resistance

Experimental Verification of Ohm’s Law

In a controlled laboratory experiment, students are required to verify Ohm's Law by constructing a b

Exploring the Influence of Circuit Component Placement on Measured Values

In an experiment to study circuit behavior, a student assembles various configurations using the sam

Heat Generation and Power Dissipation in Resistors

A circuit experiment provides measurements of voltage and current for different resistors. Use the d

Impact of Temperature on Resistor Performance

A researcher investigates how the resistance of a metallic resistor changes as the temperature is in

Investigating Battery Life: Internal Resistance and Power Loss

A researcher is studying how the increasing internal resistance of a battery affects its performance

Investigating Charge Leakage Effects in Capacitor Charging Experiment

A student studies the charging curve of a capacitor in an RC circuit by recording the voltage over t

Investigation of Non-Ohmic Behavior

A filament lamp exhibits non-ohmic behavior. The following graph shows its voltage versus current re

Kirchhoff's Laws in a Multi-branch Circuit

An experimental circuit with multiple junctions is analyzed using Kirchhoff's laws. The table below

Maximum Power Transfer in a Circuit with Internal Resistance

A battery with an EMF of 9 V and an internal resistance of $$1\;\Omega$$ is connected to an external

Non-Ohmic Behavior in Real-World Devices

Some devices, such as filament bulbs or semiconductors, exhibit non-ohmic behavior, meaning their V-

Ohm's Law and Circuit Analysis

This question focuses on applying Ohm's Law to analyze simple circuits and to interpret experimental

Power Dissipation in Resistor Circuits

A resistor circuit is tested under various load conditions. The table below provides the measured vo

Power Dissipation Optimization in Resistor Networks

A laboratory experiment compares power dissipation in two resistor network configurations: one with

RC Circuit Analysis with Switch Operations

In an RC circuit with a switch, experimental measurements indicate that immediately after closing th

Resistor Networks and Equivalent Resistance

A circuit contains three resistors arranged in a mixed series-parallel configuration. Resistors R1 =

Resistor Power Dissipation and Safety

A resistor with a resistance of $$50\,\Omega$$ is connected to a $$24\,V$$ battery. Answer the follo

Validating Ohm's Law with a Non-Ohmic Conductor

A student attempts to validate Ohm's law by plotting the voltage-current (V–I) relationship for a fi

AC Generator: Maximum Induced EMF Calculation

In a simple AC generator, a coil with 50 turns and an area of 0.2 m² rotates in a uniform magnetic f

Analysis of Magnetic Torque on a Current Loop

A rectangular loop carrying a current $$I = 2.0$$ A is placed in a uniform magnetic field of strengt

Angular Dependence of Magnetic Force

A series of experiments measures the magnetic force on a charged particle moving in a constant magne

Application of the Right-Hand Rule in 3D

The direction of the magnetic force on a moving charge is determined using the right-hand rule. Answ

Assessing Magnetic Field Strength Using Iron Filings

An experiment uses iron filings spread over a sheet of paper placed atop a bar magnet to visualize t

Calculating the Magnetic Field Around a Current-Carrying Wire

A long, straight wire carrying a steady current produces a magnetic field in the space around it. Us

Changing Magnetic Flux Through a Circuit

Magnetic flux through a loop can be altered by changes in the loop’s area, the strength of the magne

Charged Particle in a Uniform Magnetic Field

A positively charged particle with charge $$q = 2.0 * 10^{-6}$$ C enters a region with a uniform mag

Circular Motion of a Charged Particle in a Magnetic Field

A particle with charge $$q = 0.1 C$$ and mass $$m = 0.02 kg$$ enters a uniform magnetic field $$B =

Combined Effects of Electric and Magnetic Forces on a Moving Charge

A charged particle moves in a region with both uniform electric and magnetic fields. Analyze the mag

Comparative Analysis of Induced Currents

A physics laboratory is set up to compare three different methods of inducing a current in a wire lo

Data Analysis: Current vs. Magnetic Field Strength in a Solenoid

Analyze experimental data relating the current through a solenoid to the resulting magnetic field in

Dependence of Induced EMF on Rotation Rate

A circular loop rotates continuously in a uniform magnetic field, thereby inducing an emf that varie

Design of a Magnetic Braking System

Design a magnetic braking system for a roller coaster that uses the principles of electromagnetic in

Effect of Magnetic Permeability on Solenoid Magnetic Field

A long solenoid with $$n = 500\; turns/m$$ carries a current of $$I = 2 \; A$$. With an air core, th

Energy Conversion in an Electromagnetic Generator

A simple electromagnetic generator consists of a rotating loop placed in a uniform magnetic field, r

Evaluating the Magnetic Field of a Current-Carrying Wire

An experiment is conducted to measure the magnetic field strength around a long, straight current-ca

Experimental Investigation of Lenz's Law

A researcher sets up an experiment where the area of a coil is rapidly decreased while the coil is p

Experimental Verification of the Right-Hand Rule

Design an experiment to verify the right-hand rule by measuring the direction of the magnetic force

Exploring Motional EMF in a Moving Conductor

Design an experiment to measure the motional emf generated when a conductor moves through a uniform

Faraday’s Law and the Rotating Loop

A circular loop of radius 0.05 m rotates in a uniform magnetic field of 0.3 T. The loop rotates with

Force on a Moving Charge in a Magnetic Field

A charged particle moves in a uniform magnetic field. Consider a scenario where the particle moves w

Impact of Magnetic Field Orientation on Faraday Induction

A square loop with area $$A = 0.1$$ m² rotates in a uniform magnetic field of $$B = 0.5$$ T. Answer

Induced EMF in a Rotating Loop

A circular loop rotates within a uniform magnetic field, causing the magnetic flux through the loop

Investigating Magnetic Braking in a Rotating Disc

In this experiment, students study magnetic braking by rotating a metallic disc in the vicinity of a

Investigating Magnetic Permeability in Materials

A researcher measures the magnetic properties of two materials by determining their relative permeab

Lenz’s Law and Induced Current Direction

In an experiment, a coil is subjected to a changing magnetic flux by moving a magnet toward and then

Magnetic Dipoles: Bar Magnet and Current Loop

A researcher compares the magnetic field produced by a permanent bar magnet with that produced by a

Magnetic Field Diagram Analysis

Examine the provided diagram of a bar magnet's magnetic field. The diagram shows a bar magnet labele

Magnetic Field Visualization

This FRQ explores the nature of magnetic fields and how magnetic field lines are used to represent t

Magnetic Field Visualization and Field Lines

This FRQ addresses mapping magnetic fields using iron filings and interpreting the patterns observed

Magnetic Field vs. Distance Experiment

A researcher measures the magnetic field strength around a long, straight current-carrying wire at v

Magnetic Flux Change in a Sliding Rod Circuit

A rectangular circuit has one side that is a conducting rod sliding in a uniform magnetic field. Ana

Magnetic Force Cancellation in a U-Shaped Wire

A U-shaped wire is immersed in a uniform magnetic field of $$0.5\;T$$. The report claims that by pas

Magnetic Materials and Field Distribution

A researcher compares soft iron and hard steel as core materials in electromagnets. The magnetic per

Magnetic Permeability and Field Strength

An experiment investigates how different materials affect the apparent magnetic field strength when

Mapping Magnetic Fields around a Bar Magnet

A researcher is studying the magnetic field of a standard bar magnet in a controlled laboratory sett

Measurement of Lorentz Force on a Moving Conductor

A laboratory experiment is set up to measure the Lorentz force acting on a copper bar that slides al

Measuring Magnetic Permeability via Compass Deflection

An experiment attempts to determine the magnetic permeability of a material by measuring the deflect

Measuring the Earth's Magnetic Field

Design an experiment to measure the magnitude and direction of the Earth's magnetic field using a si

Motional EMF in a Conducting Rod

A conducting rod of length $$l = 0.2$$ m moves at a constant speed $$v = 3.0$$ m/s through a uniform

Temperature Effects on Magnetic Permeability in Materials

Researchers aim to study how temperature influences the relative magnetic permeability of ferromagne

Time-Dependent Induced EMF in a Rotating Loop

Design an experiment to investigate how the induced emf in a rotating loop varies over time, particu

Time-Varying Magnetic Flux in a Rotating Loop

This FRQ explores the time dependency of magnetic flux in a rotating loop and the resulting induced

Trajectory of a Proton Near a Current-Carrying Wire

A proton moving at a speed of $$2 \times 10^5 \;m/s$$ passes at a distance of 4 cm from a long, stra

Uniform Field of a Solenoid

A researcher studies the magnetic field produced by a solenoid. Measurements of the magnetic field a

Vector Analysis of Magnetic Force

A charged particle moves in a three-dimensional space under the influence of a magnetic field. The v

Zero Net Force in U-Shaped Wire Experiment

In a controlled experiment, a U-shaped wire with three segments is partially immersed in a magnetic

Brewster's Angle and Reflective Polarization

At the interface of air and glass, light can become polarized upon reflection.

Comprehensive Analysis of Optical Imaging Systems

Design an experiment that integrates lenses and mirrors to project an image onto a screen. This comp

Converging Thin Lens Image Formation

A researcher sets up a converging lens with a focal length of $$15$$ cm to project an image. An obje

Convex Mirror Image Formation

An object of height $$h_o = 5 \ cm$$ is placed at a distance of $$d_o = 25 \ cm$$ in front of a conv

Diffraction Grating Wavelength Measurement

A student uses a diffraction grating with 5000 lines per centimeter to measure the wavelength of an

Diffraction Gratings and Spectral Analysis

A diffraction grating is used to analyze the spectral composition of a light source. A graph showing

Diverging Lens: Sign Convention Error Analysis

In an experiment using a diverging lens, a student measures object distance, image distance, and ima

Electromagnetic Spectrum and Frequency

Green light has a wavelength of 550 nm. Answer the following: (a) Calculate its frequency using $$v

Electromagnetic Wave Oscillation Diagram Analysis

Using the provided diagram showing oscillating electric (E) and magnetic (B) fields of an electromag

Electromagnetic Wave Properties and Polarization

An electromagnetic wave is produced by an oscillating charge in free space. Consider a green light w

Experimental Design: Evaluating Light Behavior in Combined Mirror-Lens Systems

An optical system combines a concave mirror and a converging lens to form an image. The following ta

Image Formation by Convex Mirrors

A convex mirror has a focal length of $$20\,cm$$. An object is placed $$30\,cm$$ in front of the mir

Image Formation with a Concave Mirror

A student investigates image formation using a concave mirror. In the experiment, a concave mirror w

Interference from Coherent Light Sources

Two coherent, monochromatic light sources produce an interference pattern on a distant screen. Answe

Interference from Multiple Sources

Three coherent light sources, each emitting light of wavelength $$\lambda = 650 * 10^{-9}$$ m, are a

Interference in Multiple-Slit Systems

An experiment compares the interference patterns produced by a double-slit setup and a triple-slit s

Interference with Variable Slit Separation: Observing the Changes in Fringe Spacing

Design an experiment to investigate how varying the separation between slits in a double slit appara

Optical Data Analysis from Spherical Mirror Measurements

An experiment is conducted where an object is placed at various distances from a concave mirror, and

Oscillating Charges and the Generation of EM Waves

An oscillating charge is a fundamental source of electromagnetic radiation. This problem involves ex

Polarization and Electromagnetic Wave Behavior

In an experiment testing polarization, a polarizer is rotated and the transmitted light intensity is

Radiation Pressure and Electromagnetic Waves

An experiment measures the force exerted on a surface by electromagnetic radiation at various light

Reflection and Refraction: Application of Snell’s Law

This question examines the application of Snell's law to a light beam incident on a glass surface an

Single Slit Diffraction Analysis

In this question, you will derive the condition for minima in a single slit diffraction pattern and

Single Slit Diffraction Patterns

A monochromatic light of wavelength $$λ = 600*10^{-9} \ m$$ is incident upon a single slit with a wi

Single-Slit Diffraction: Experimental Error Analysis

In an experiment aimed at studying single-slit diffraction, a student sets up a coherent light sourc

Thin Lens Focal Length Determination: Measurement Reference Error Analysis

A student conducts an experiment using a converging thin lens to project an image of an object onto

Thin Lenses: Converging Lens Analysis

In an experiment involving a converging lens, measurements were taken for various object distances.

Total Internal Reflection and Critical Angle

Consider a beam of light traveling within water (with index of refraction $$n_{water} = 1.33$$) that

Wave Interference in a Medium: Misapplication of Light Formulas

A student uses a ripple tank to simulate interference patterns similar to those observed with light

Calculating Nuclear Binding Energy

A researcher is investigating the stability of nuclei by calculating the nuclear binding energy per

Conservation Laws in Particle Collisions

In a high-energy collision experiment, two particles collide and produce two different particles. Co