AP Physics 2: Algebra-Based FRQ Room

Airflow and Aerodynamic Lift

A researcher investigates the role of airflow in generating lift over an airplane wing using Bernoul

Airflow and Lift over an Airfoil

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

Airflow Over an Airfoil and Lift Generation

In a wind tunnel experiment, an airfoil is subjected to an airflow of $$20\,m/s$$. Pressure sensors

Airfoil Pressure Distribution Study

A series of experiments was conducted in a wind tunnel to measure the pressure distribution along a

Analysis of Fluid Flow Measurements in a Laboratory Pipe

A researcher collects flow measurements along a pipe with varying cross-sections. The following data

Analyzing a Pressure-Flow Graph for a Fluid Pipe System

A graph is provided showing the relationship between pressure and flow rate in a controlled pipe sys

Analyzing Buoyancy in a Real-World Context: A Ship at Sea

A small ship has a total volume of $$500~m^3$$ and a mass of $$4.5 \times 10^6~kg$$, and it floats i

Average Hydrostatic Pressure on a Submerged Plate

A rectangular plate measuring 2 m in width and 1.5 m in height is submerged vertically in water (den

Bernoulli's Equation in Constricted Flow

Water flows through a horizontal pipe that gradually narrows. At Point 1, the cross-sectional area i

Bernoulli’s Principle and Air Flow Over an Airfoil

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

Buoyancy and Floating Objects Analysis

An object with a mass of $$150~kg$$ and volume of $$0.8~m^3$$ is placed in a container filled with a

Buoyancy and Submerged Volume

This problem focuses on buoyancy calculations using Archimedes’ principle and the concept of volume

Buoyancy and Submerged Volume

An object with a mass of $$150 \cdot kg$$ and a volume of $$0.75 \cdot m^3$$ is placed in a fluid wi

Buoyancy Experiment with Incorrect Variable Substitution

A student designs an experiment to determine the fraction of an object's volume that is submerged wh

Comparative Study of Fluids Using a U-Tube Manometer

In a laboratory, students use a U-tube manometer to compare the densities of two unknown fluids. The

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

Continuity Equation in a Constricted Pipe

A horizontal pipe carries water (density $$1000\;kg/m^3$$) at a flow speed of $$6\;m/s$$. At one sec

Continuity Equation in a Constricted Pipe Experiment

A student sets up a horizontal pipe with two sections: one wide and one significantly constricted. T

Continuity Equation in Branching Pipes

A pipeline carrying water (density $$1000\;kg/m^3$$) splits into two branches. The main pipe has a f

Density Measurement Using a Hydrometer

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

Designing a Multi-Variable Experiment on Fluid Properties

A research team is designing an experiment to investigate how fluid density, viscosity, and flow spe

Determining Fluid Density

A sample of an unknown liquid has a mass of $$1.2 \times 10^{0} \text{ kg}$$ and occupies a volume o

Developing an Experiment for Continuity Equation Verification

Design a controlled experiment to verify the continuity equation using water (density $$1000\;kg/m^3

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 Altitude on Atmospheric Pressure and Buoyancy

An experiment is conducted to measure the effects of altitude on atmospheric pressure. At sea level,

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

Effect of Pipe Diameter on Flow Velocity: A Scaling Study

Design an experiment to determine how changes in pipe diameter affect the flow velocity of a fluid u

Energy Conservation in Fluid Flows

Using Bernoulli's equation, derive an expression that relates the change in kinetic energy per unit

Energy Conversion in Hydraulic Systems

Hydraulic systems utilize fluid flow to convert energy and perform work. As fluid flows, energy is t

Examining the Role of Viscosity in Fluid Dynamics Experiments

A researcher is investigating how the viscosity of a fluid affects flow measurements in experiments,

Experimental Determination of Fluid Viscosity Using Flow Rate Measurements

A researcher seeks to determine the viscosity of a fluid using a capillary tube method. In the exper

Flow in an Open Channel: Continuity and Energy Considerations

Water flows in an open channel that narrows from a width of 4.0 m to 2.0 m. In the wider section, th

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

Fluid Density Analysis

You are provided with a table listing three different fluids along with their measured masses and vo

Fluid Dynamics in a Venturi Meter

A Venturi meter is used to measure the flow rate of water in a pipe. The meter has an inlet with a d

Fluid Exit Velocity: An Orifice Flow Experiment

A group of students conducts an experiment to measure the speed of water exiting a small orifice at

Fluid Statics in Deep-sea Conditions

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

Hydraulic Lift Design

A hydraulic lift employs two pistons connected by an incompressible fluid. The small piston has an a

Hydraulic Press and Force Amplification

A hydraulic press consists of two pistons connected by an incompressible fluid. The larger piston ha

Hydrostatic Pressure in an Open Tank

A researcher investigates hydrostatic pressure within an open water tank. The study aims to measure

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

Influence of Viscosity on Flow Rate: Exploring Deviations from the Ideal Model

In an experiment, the predicted volume flow rate through a pipe using the continuity equation differ

Integrated Fluid Dynamics Investigation

A chemical engineering laboratory examines the behavior of an incompressible fluid (density = $$1000

Interpretation of a Graph of Fluid Flow vs. Time

The graph below shows the volume flow rate (in $$m^3/s$$) measured in a pipe over a 10-second interv

Lift Force Measurement in Wind Tunnel

In a wind tunnel experiment, a wing model is tested under controlled airflow. Pressure sensors at tw

Measurement of Flow Rate in a Venturi Meter

A venturi meter is installed in a pipeline to measure flow rate by producing a pressure drop at the

Measuring Flow Rate in Open Channels via Floating Objects

Design an experiment to measure the flow rate of a liquid in an open channel using the float method.

Modeling Fluid Flow in a Conical Pipe

Consider a conical pipe whose radius decreases linearly with distance x according to $$r(x) = r_0 -

Multi-Stage Fluid Dynamics Analysis in a Piping Network

A fluid flows through a piping network with three segments having different diameters and elevation

Net Force on a Submerged Curved Surface

Consider a dome-shaped, curved window that is fully submerged in water. The pressure on the surface

Oil-Water Separation in Multi-Phase Fluid Systems

An experiment is conducted in a container to investigate oil-water separation based on density diffe

Pipeline Flow Optimization in a Water Treatment Facility

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

Pressure Calculations in Submerged Structures

A structural engineering team is testing a scale model of a submerged tunnel to study the effects of

Pressure Exerted by Fluid Column

A researcher investigates the variation of pressure with depth in a fluid contained within a transpa

Quantitative Analysis of Pressure Distribution in an Accelerating Fluid

A rectangular container with a length of $$2 \cdot m$$ is filled with water (density = $$1000 \cdot

Solar-Powered Water Pump Analysis in a Remote Village

In a remote village, a solar-powered water pump extracts water from a well 20 m deep. The pump must

Submerged Object Pressure Analysis

A researcher examines the variation of hydrostatic pressure on an object fully submerged in water.

Temperature Effects on Fluid Viscosity and Flow

In an experiment, the flow rate of a viscous fluid through a fixed nozzle is measured at various tem

Time of Drainage from a Tank

A cylindrical tank with a cross-sectional area A is drained through a small outlet (area a) located

Using a Pitot Tube to Measure Flow Velocity

A Pitot tube measures fluid velocity by converting the kinetic energy into a pressure difference bet

Analysis of Heat Conduction Through Materials

A flat slab of material has a thickness of 0.05 m and an area of 1.0 m². The temperature difference

Analyzing Work Done in Different Thermodynamic Paths

A gas undergoes changes between states along two alternate paths on a P–V diagram. Path 1 is a const

Application of the First Law of Thermodynamics in a Piston System

A gas confined in a piston receives $$500\;J$$ of heat. During its expansion, the gas does $$200\;J$

Calculating Work and Efficiency in a Heat Engine Cycle

A heat engine undergoes a cycle in which it absorbs $$Q_H = 1000 J$$ of heat and rejects $$Q_C = 400

Clausius-Clapeyron Equation and Phase Transitions

The Clausius-Clapeyron equation relates vapor pressure to temperature during phase transitions. (a)

Comparative Analysis of Heat Loss in Buildings

In residential buildings during winter, significant energy loss occurs due to heat transfer. (a) Id

Comparison of Isothermal and Adiabatic Processes

A gas transitions between the same initial and final states via two different paths: one is isotherm

Designing a Heat Engine

A heat engine draws $$800\;J$$ of heat from a high-temperature source and expels $$450\;J$$ as exhau

Deviation from Ideal Behavior in Real Gases

A researcher compares the behavior of an ideal gas with a real gas under identical conditions: 0.5 m

Entropy Change and the Second Law of Thermodynamics

During a reversible isothermal expansion of an ideal gas, the entropy change is described by the equ

Entropy Changes in Thermodynamic Processes

A system undergoes an irreversible expansion followed by a reversible compression. Analyze and evalu

Experimental Design for Gas Effusion

Graham's law states that the rate of effusion of a gas is inversely proportional to the square root

Experimental Verification of the Maxwell–Boltzmann Distribution in Gas Molecules

The Maxwell–Boltzmann distribution predicts the speed distribution of molecules in a gas. Design an

Exploring Kinetic Molecular Theory via Maxwell-Boltzmann Distribution

An experiment is conducted to study the speed distribution of gas molecules. The data is represented

Heat Capacities and Degrees of Freedom

For an ideal gas, the molar heat capacities at constant volume (\(C_V\)) and constant pressure (\(C_

Heat Engine Efficiency

A heat engine operates in a cyclic process where heat is taken in from a high-temperature source, pa

Ideal Gas Pressure Analysis

A cylindrical container with a closed lid has a radius of $$0.15\;m$$ and a height of $$0.30\;m$$. I

Identifying Thermodynamic Processes

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

Influence of Molecular Mass on Gas Pressure and Speed

Two gases are each confined in identical rigid containers. Both contain the same number of molecules

Investigation of Pressure in Confined Gases

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

Irreversible Processes and Entropy Analysis

A claim is made that during an irreversible process in an isolated system, the total entropy always

Pressure Sensor Calibration Error in Gas Experiment

In an experiment intended to verify the Ideal Gas Law, a student uses a pressure sensor to record th

Temperature and Kinetic Energy Relations

This experiment investigates the relationship between temperature and the average kinetic energy of

The Second Law of Thermodynamics and Entropy

The Second Law of Thermodynamics governs the direction of spontaneous processes. (a) State the Secon

Thermal Insulation Effectiveness Experiment Error

A student conducts an experiment to test the effectiveness of different insulation materials by meas

Thermodynamic Analysis of an Ice Melting Process

When heat is added to a substance at its melting point, the phase change occurs without a change in

Thermodynamic Efficiency and Real Engines

Real heat engines are subject to various losses and cannot achieve the ideal efficiencies predicted

Work Calculation in Sequential Thermodynamic Processes

A gas undergoes a two-step process: an isobaric expansion followed by an isochoric heating. Using th

Work in Isobaric and Isochoric Processes Analysis

A gas in a cylinder undergoes two separate experiments. In Experiment 1 (isobaric), the gas expands

Analysis of Electric Dipole Field Measurements

An experimental setup measures the electric field magnitude at various distances along the perpendic

Application of Coulomb's Law

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

Charging by Induction: Analysis and Prediction

Two identical conducting spheres, initially uncharged, are placed on an insulating stand. A negative

Charging Methods Comparison

A researcher conducts two experiments to charge a neutral metal sphere. In Experiment 1, the sphere

Comparative Analysis of Charging Methods

In a laboratory setting, two objects made from different materials—one metal (a good conductor) and

Comparing Electric and Gravitational Forces in a Hydrogen Atom

Consider theoretical estimates for the forces acting between a proton and an electron in a hydrogen

Coulomb’s Pendulum Experiment Error Analysis

In an experiment designed to measure the electrostatic force between two identically charged spheres

Derivation of Potential Difference Between Concentric Equipotential Surfaces

The electric potential due to a point charge is given by $$V = \frac{k \times Q}{r}$$. Using this re

Dipole Electric Field at Midpoint

A dipole is formed by two point charges of +4.0 nC and -4.0 nC separated by a distance of 6.0 cm. De

Effect of a Dielectric on Capacitor Capacitance

A parallel-plate capacitor with capacitance C₀ is filled with vacuum. (a) If a dielectric material

Effect of a Non-uniform Electric Field on a Moving Charge

A charged particle with charge $$q$$ is accelerated through a non-uniform electric field generated b

Electric Charge Distribution on Conductors: Capacitance Influence Error

In an experiment aimed at studying charge distribution, two metallic spheres of different radii are

Electric Field Lines at Media Boundaries

This problem examines how electric field lines behave at the boundary between two different media an

Electric Field Mapping and Equipotential Surfaces

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

Electric Field Modeling in a Charged Particle Accelerator Element

In a charged particle accelerator, a pair of parallel plate electrodes is used to generate a uniform

Electric Field Variation with Distance

An experiment measures the magnitude of the electric field produced by a point charge as a function

Electric Potential Due to a Point Charge

A point charge of $$+2.0*10^{-9}$$ C creates an electric potential in the surrounding space. (a) Ca

Electric Potential from Multiple Point Charges

Two fixed point charges, $$Q_1$$ and $$Q_2$$, are located at specified positions. A point A is locat

Electric Potential in a Dipole Configuration

An electric dipole is formed by two charges +Q and -Q with Q = 5.0 × 10⁻⁹ C, separated by 8.0 cm. Co

Energy Storage in a Parallel-Plate Capacitor

A parallel-plate capacitor has a capacitance of 10 nF and holds a charge of 50 μC on each plate. (a

Equipotential Surfaces and Field Lines

A researcher maps the equipotential surfaces around an isolated charged sphere.

Equipotential Surfaces for a Point Charge

A point charge Q = 3.0 × 10⁻⁹ C is located at the origin. The electric potential V at a distance r f

Force and Potential Energy in the Hydrogen Atom

For a hydrogen atom, consider the proton and electron separated by a distance of 0.5×10^-10 m. Using

Force Comparison in Hydrogen Atom

An experiment is conceptually designed to compare the magnitude of the electric force to the gravita

Inductive Charging Experiment of Spheres

In an experiment, two identical initially neutral conducting spheres are placed on an insulating sta

Influence of Charge Magnitude on Electric Potential

Design an experiment using a variable charge on a point charge source to measure the resulting elect

Linear Variation of Electric Potential near a Charged Sheet

An experiment measured the electric potential at several distances from an infinite charged sheet. A

Mapping Equipotential Surfaces around Multiple Charged Particles

Design an experiment to map the equipotential surfaces for a system consisting of two positive and t

Millikan Oil Drop Experiment Analysis

The Millikan oil drop experiment played a pivotal role in determining the fundamental charge of the

Parallel-Plate Capacitor Characteristics and Energy Storage

A parallel-plate capacitor has a capacitance of $$10\,nF$$ and stores a charge of $$50\,\mu C$$ on e

Parallel-Plate Capacitor: Potential Difference and Plate Area

A parallel-plate capacitor stores a charge of 50 μC on each plate and has a capacitance of 10 nF. (

Polarization Effects in Conductors vs. Insulators

A positively charged rod is brought near two initially uncharged spheres: Sphere A (a conductor) and

Potential Difference in a Parallel-Plate Capacitor

A parallel-plate capacitor has plates of area A = 0.05 m² separated by a distance d = 0.001 m and is

Proton-Electron Force Comparison

This question examines the forces between a proton and an electron in a hydrogen atom and requires y

Quantisation of Electric Charge

In a modern reinterpretation of the Millikan oil drop experiment, oil drops are observed to remain s

Superposition of Electric Fields: Square Charge Configuration

Four identical positive point charges are fixed at the vertices of a square with side length 0.20 m.

Superposition of Forces in a Square Configuration

Four equal positive point charges are placed at the vertices of a square. A negative charge is place

Uniform Electric Field from a Charged Plate

A large horizontal plate carries a uniform positive surface charge density σ = 2.0 × 10⁻⁶ C/m².

Vector Addition of Electric Forces in an Equilateral Triangle

Three point charges are placed at the vertices of an equilateral triangle with each side measuring 0

Voltmeter Experiment: Internal Resistance Oversight

A student designs an experiment to measure the electric potential difference between two points in a

Work and Potential Difference in a Uniform Electric Field

A positive charge of $$+1.0*10^{-2}$$ C is moved a distance of 0.15 m in the direction of a uniform

Work Calculation in a Non-Uniform Electric Field

An experiment tracks the work done on a charge as it moves through a non-uniform electric field crea

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

Analyzing Capacitors in Series and Parallel

Two capacitors with capacitances of 4 μF and 6 μF are used in a circuit.

Analyzing Energy Dissipation in Circuits with Multiple Components under Variable Loads

A study claims that by optimizing the configuration of resistor networks, overall energy dissipation

Analyzing Power Dissipation with a Variable Resistor

A resistor with a variable resistance ranging from 5 Ω to 20 Ω is connected to a constant 12 V sourc

Analyzing Power Efficiency in Batteries with Internal Resistance

A battery with an EMF of 15 V and internal resistance $$r = 0.5\,Ω$$ is connected to a load resistor

Basic Analysis of Electric Current

Consider a simple circuit that contains a battery with a voltage of $$12\,V$$ and a resistor of $$10

Battery Discharge Rate through a Capacitor-Resistor Network

A student investigates the discharge curve of a capacitor in an RC circuit by recording the voltage

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 Analysis

A battery can be modeled as an ideal EMF in series with an internal resistance r. The following tabl

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 Energy Efficiency Testing

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

Determining Capacitance Changes Due to Physical Adjustments

A parallel-plate capacitor has plate area A, plate separation d, and a dielectric constant k. Answer

Determining Equivalent Resistance in Mixed Resistor Networks

A circuit is constructed using three resistors: one resistor of 100 \(\Omega\), one of 200 \(\Omega\

Determining Resistivity from Measured Data

A student measures several parameters of a wire in order to calculate its resistivity.

Determining Resistivity through Experimental Measurements

A researcher studies a uniform wire made of an unknown material. The wire has a length of 2 m and a

Effects of a Variable Resistor on Circuit Behavior

A variable resistor is used in a series circuit powered by a 15V battery.

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

Experimental Determination of Resistivity

A student performs an experiment to determine the resistivity of a metal wire. The wire has a measur

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 Battery Performance

Temperature can impact battery performance by altering its internal resistance.

Investigation of Capacitor-Battery Interaction under Variable Conditions

In an experiment, a capacitor is charged under two conditions: with the battery connected and with t

Kirchhoff's Laws in a Multi-Loop Circuit

A circuit consists of two loops sharing a common resistor. In Loop 1, a 12 V battery is connected in

Kirchhoff’s Laws: Loop and Junction Analysis

An experiment was conducted on a multi-loop circuit to test Kirchhoff's loop and junction rules. The

Microcontroller-Based Circuit Measurement Setup

Design a circuit that integrates a microcontroller to continuously measure the current and voltage i

Multi-branch Circuit Analysis

A complex circuit consists of two branches: Branch A contains two resistors (4 Ω and 3 Ω) in series,

Non-Ohmic Behavior in Real-World Devices

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

Power Dissipation in Circuit Components

A simple circuit consists of a resistor connected to a battery. Consider a scenario where a 9 V batt

RC Circuit Response and Steady State Behavior

Consider an RC circuit containing a battery, a resistor, a capacitor, and an additional resistor in

RC Circuit Transients and Time Constants

An RC circuit is comprised of a resistor $$R = 5\times10^3\,\Omega$$ and a capacitor $$C = 2\,\mu F$

Series and Parallel Resistor Analysis

This question examines the behavior of resistors arranged in series and parallel in simple circuits.

Series-Parallel Circuit with Capacitors and Resistors

A complex circuit is built with both resistor and capacitor networks. In the resistor network, resis

Transient Analysis with a Pulse Input in an RC Circuit

An RC circuit is subjected to a pulse input voltage that is maintained at $$10 \text{ V}$$ from $$t

Analysis of Magnetic Field vs. Distance for a Current-Carrying Wire

An experiment measures the magnetic field at various distances from a long, straight current-carryin

Assessing Magnetic Permeability Effects

This FRQ explores how the magnetic permeability of materials influences the magnetic field generated

Calculating Magnetic Flux in a Non-Uniform Magnetic Field

A rectangular loop with width $$w = 0.2$$ m and height $$h = 0.3$$ m is placed in a magnetic field t

Comparing Magnetic Effects in Materials with Different Magnetic Permeabilities

Two samples, Material X and Material Y, are placed in an identical external magnetic field of $$0.2$

Current-Carrying Wire Force Experiment

A group of students conducts an experiment to measure the force on a U-shaped current-carrying wire

Current-Carrying Wire Magnetic Field

A researcher examines the magnetic field created by a long, straight current-carrying wire. The magn

Design and Analysis of a Railgun

Railguns use magnetic forces to accelerate projectiles. In this problem, analyze the principles behi

Designing an Electromagnetic Induction Experiment

This FRQ requires designing an experiment to investigate how the speed of a sliding rod affects the

Designing an Experiment for Faraday's Law

Faraday’s law states that a changing magnetic flux through a circuit induces an emf. Design an exper

Determining Magnetic Field Direction Around a Wire

A long, straight vertical wire carries a current of 15 A upward. Around the wire, four points (A, B,

Determining Magnetic Force on a Moving Charge

An experimental report describes the measurement of the magnetic force on a proton moving at $$2*10^

Determining Magnetic Permeability via Solenoid Insertion

Design an experiment to determine the magnetic permeability of a material by inserting it into a sol

Distance Dependence of Magnetic Field from a Current Wire

An experiment measured the magnetic field strength at various distances from a long, straight wire c

Evaluating Magnetic Flux Change in a Rotating Loop

A circular loop of wire is rotated in a uniform magnetic field. The change in orientation causes the

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

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 Induced EMF

An experiment uses a coil with a fixed number of turns, where the external magnetic field strength i

Force on a Charged Particle in a Non-Uniform Magnetic Field

A charged particle with charge $$q$$ moves with constant speed $$v$$ in a region where the magnetic

Force on a Moving Charge in a Magnetic Field

A charged particle moves through a uniform magnetic field. Analyze the factors affecting the magnitu

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

Force on a Moving Charge in a Magnetic Field

A charged particle moves through a uniform magnetic field. Determine the magnetic force acting under

Induced EMF and Conductor Length

An experiment is conducted in which a conducting rod moves through a magnetic field, and the induced

Investigating Lenz's Law with a Retractable Coil

A magnet is moved rapidly through a coil of wire that is connected to a sensitive oscilloscope to re

Lenz's Law in a Sliding Bar Circuit

A conducting bar slides on a pair of parallel rails, forming a rectangular loop, in the presence of

Magnetic Field Mapping with Iron Dust

Iron dust is often used to visualize magnetic field lines. When sprinkled on a surface placed over a

Magnetic Field of a Current-Carrying Wire and Force on a Proton

A long, straight wire carries a current of $$I = 10 \; A$$. A proton moving parallel to the wire wit

Magnetic Field vs. Distance Experiment

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

Magnetic Force on a Current-Carrying Wire in a U-Shaped Conductor

This FRQ examines the application of the magnetic force formula on current-carrying conductors and e

Mapping Magnetic Field Lines using Computer Simulation

Students use a computer simulation to model the magnetic field lines around a bar magnet and analyze

Mapping Magnetic Field Lines with Iron Dust

A recent experimental report claims that by sprinkling iron dust on a piece of paper placed over a b

Mapping Magnetic Field Lines with Iron Filings

A bar magnet is placed on a flat surface and iron filings are sprinkled around it. Describe how yo

Mapping Magnetic Fields around a Bar Magnet

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

Mapping the Magnetic Field Around a Straight Current-Carrying Wire

In this experiment, students use a Hall sensor to measure the magnetic field (B) at various distance

Measurement of Magnetic Field Gradient near an Electromagnet

A research team uses a magnetic field probe to measure the gradient of the magnetic field in the vic

Measurement of Magnetic Fields Using Hall Effect Sensors

The Hall Effect is a valuable tool for measuring magnetic fields. Explain the principle behind Hall

Motional EMF and Conductor Velocity

A lab simulation studies the effect of a conducting rod's velocity on the motional EMF generated whe

Motional EMF in a Conducting Rod

This FRQ focuses on the phenomenon of motional electromotive force (emf) generated in a moving rod w

Motional EMF in a Moving Rod

A conducting rod of length $$L = 0.3 m$$ moves with a constant velocity of $$v = 2 m/s$$ along paral

Net Force on a Current-Carrying U-shaped Wire

Consider a U-shaped wire immersed in a uniform magnetic field of magnitude $$B = 0.2 \; T$$ directed

Power and Energy Conversion in Motional EMF

A conducting rod of length $$L = 0.5 m$$ moves at a constant speed of $$v = 3 m/s$$ through a unifor

Proton Force Near a Current-Carrying Wire

A proton moves near a long, straight wire carrying a fixed current, and its magnetic force is measur

Qualitative Analysis of Magnetic Field Lines Using Iron Dust Technique

A scientist uses finely milled iron dust to visualize the magnetic field lines around a permanent ba

Rotating Coil and Faraday's Law

A circular coil rotates at a constant angular speed within a uniform magnetic field. During rotation

Temperature Effects on Magnetic Permeability in Materials

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

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

U-Shaped Wire Current Balance

A researcher studies a U-shaped wire with three segments (two vertical legs and one horizontal segme

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

Calculating Lens Power from Image Magnification

The power of a lens is defined as the reciprocal of its focal length (in meters). Analyze an example

Chromatic Aberration in Lenses

Chromatic aberration occurs when a lens fails to focus all wavelengths to the same point. Answer the

Concave Mirror Image Analysis

This question involves using the mirror formula to determine the properties of images formed by a co

Concave Mirror Image Analysis

An object of height $$h_o = 4 \ cm$$ is placed at a distance of $$d_o = 30 \ cm$$ in front of a conc

Concave Mirror Ray Diagram: Reflection Error Analysis

A student is asked to draw ray diagrams for a concave mirror experiment. The student accurately reco

Converging Lens Experiment: Measuring Focal Length Using Object-Image Distances

Design an experiment to measure the focal length of a converging lens using object and image distanc

Critical Angle Determination for Various Media

A researcher is studying critical angles when light passes from glass (with $$n=1.5$$) into differen

Diffraction Comparison: Single vs. Double Slit

In this question, you will compare the diffraction pattern produced by a single slit with the interf

Diffraction Grating for Wavelength Determination

A diffraction grating with 5000 lines per cm is used to measure the wavelength of a light source. Th

Diffraction Grating Wavelength Measurement

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

Diverging Lens: Image Formation Analysis

This question involves analyzing image formation by a diverging lens using the thin lens equation an

Effect of Medium on Electromagnetic Wave Propagation: Experiment Design

Design an experiment to investigate how different media affect the propagation speed of electromagne

Effect of Medium on EM Wave Propagation: Frequency Invariance Error Analysis

A student investigates the propagation of electromagnetic waves through air with varying humidity le

Effects of Wavelength Change in Interference Patterns

This question examines the effect of changing the wavelength of light on the interference patterns p

Electromagnetic Wave Characterization

A researcher studies electromagnetic waves emitted by distant stars, using the fundamental relation

Electromagnetic Wave Propagation in Vacuum

A researcher is investigating the propagation of electromagnetic waves in a vacuum. An oscillating d

Extended Analysis in Young's Double Slit Experiment with Changing Wavelength

A researcher performs Young's double slit experiment with a slit separation of $$d = 0.5*10^{-3}$$ m

Frequency Determination of Green Light: Speed of Light Misassumption

A student attempts to calculate the frequency of green light by measuring its wavelength with a spec

Interference in Thin Films

A researcher studies the colorful interference patterns observed in a thin soap film, where film thi

Interference in Young's Double Slit Experiment

A student investigates interference patterns using a double-slit setup in a controlled laboratory ex

Magnification in Diverging Lens: Formula Misapplication Error Analysis

A student performs an experiment with a diverging lens by measuring object height, image height, obj

Multi-Wavelength Interference Experiment

In an experiment using a diffraction grating, two monochromatic light sources are employed: red ligh

Multiple Interfaces: Sequential Refraction

A light ray passes through a system consisting of three media with refractive indices: air ($$n_1 =

Optical Fibers and Total Internal Reflection

Optical fibers use total internal reflection to guide light over long distances. Consider an optical

Optical Sensors in Environmental Monitoring

Environmental scientists are developing optical sensors to monitor particulate matter in water. The

Plane Mirror Image Characteristics

This question explores the properties of images formed by plane mirrors and asks you to explain why

Plane Mirror Investigation: Verifying Virtual Image Formation

Design an experiment to investigate how plane mirrors form virtual images. Your design should includ

Reflection and Refraction: Snell's Law

A beam of light traveling in air (with an index of refraction, n = 1.0) strikes a glass surface (n =

Single Slit Diffraction Analysis

A single slit of width $$a = 0.1\,mm$$ is illuminated by monochromatic light with a wavelength of $$

Spectral Analysis Using Diffraction Gratings

A researcher uses a diffraction grating with a groove density of 3000 lines per centimeter to analyz

The Doppler Effect for Electromagnetic Waves

In a laboratory experiment, the frequency of light from a moving source was measured under different

Thin Converging Lens Image Formation

An object of height 10 cm is placed 40 cm from a converging lens with a focal length of 15 cm. Answe

Thin Lenses - Diverging Lens Analysis

An object of height 11 cm is placed 48 cm from a diverging lens with a focal length of -24.5 cm. (a

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 Calculation

Total internal reflection occurs when light travels from a medium with a higher index of refraction

Variable Object Distance in Mirror Equation

An object is placed in front of a concave mirror with a focal length of $$f = 12 \ cm$$. As the obje

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

Young's Double Slit Experiment Analysis

In Young's double slit experiment, coherent light passing through two closely spaced slits produces

Young's Double Slit Experiment Analysis

In a Young's double slit experiment, monochromatic light of wavelength $$589 \times 10^{-9}\,m$$ pas

Wave-Particle Duality Experiment with Electrons

An experiment is conducted in which electrons are accelerated through a potential difference and the