AP Physics C: Electricity and Magnetism FRQ Room

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AP Physics C: Electricity and Magnetism Free Response Questions

The best way to get better at FRQs is practice. Browse through dozens of practice AP Physics C: Electricity and Magnetism FRQs to get ready for the big day.

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  • Unit 1: Electrostatics (54)
  • Unit 2: Conductors, Capacitors, Dielectrics (53)
  • Unit 3: Electric Circuits (45)
  • Unit 4: Magnetic Fields (54)
  • Unit 5: Electromagnetism (44)
Unit 1: Electrostatics

Analysis of Charge Distribution on a Conductor

Examine the effects of grounding on a charged conductor by using Gauss's law and integration. Answer

Medium

Analyzing Electric Field Lines and Charge Distributions

Electric field lines provide a visual representation of the field. Analyze the principles behind the

Easy

Analyzing Transient Response in RLC Circuits Using Calculus-Based Modeling

Design an experiment to study transient oscillations in an RLC circuit. Use calculus to model the di

Extreme

Charge Conservation and Electrostatic Interactions

Charge conservation and electrostatic interactions are fundamental concepts in electromagnetism. Dis

Easy

Charge Distribution in a Conductor

A solid metallic conductor is given an excess charge Q. It is observed that all excess charge reside

Easy

Charge Interaction in Mixed Media

A computer simulation investigates how two point charges interact when placed in media with differen

Easy

Comparative Analysis of Conductors and Insulators

An experiment compares the charge retention in a conductor versus an insulator when both are initial

Medium

Conductors in Electrostatic Equilibrium

A hollow metallic (conducting) sphere is uniformly charged with a total charge $$Q$$ and contains an

Easy

Coulomb's Law: Force Gradient Analysis

Two charged particles with charges q₁ and q₂ interact in a vacuum. The force between them is given b

Medium

Data Analysis of Electric Force Measurements

In a laboratory experiment, the force between charged spheres was measured at various distances. Usi

Medium

Designing an Experiment to Measure the Electric Field due to a Cylindrical Charge Distribution

Design an experiment to measure the electric field around a long, uniformly charged cylinder using a

Hard

Dipole in a Non-Uniform Electric Field: Torque and Equilibrium

A dipole with moment p is placed in a non-uniform electric field given by $$E(x)= E₀*(1+β*x)$$. Usin

Extreme

Dynamic Charging Process of a Capacitor

A capacitor is charged by a battery through a resistor. The voltage across the capacitor as a functi

Medium

Dynamics of a Charged Particle in a Non-Uniform Electric Field

A charged particle of mass m and charge q enters a region where the electric field decreases with di

Hard

Electric Dipole in a Uniform Electric Field

An electric dipole with dipole moment $$p$$ is placed in a uniform electric field $$E$$ such that th

Hard

Electric Field Due to a Cylindrical Surface Charge Distribution

Apply Gauss' Law to derive the electric field for a cylindrical charge distribution and then calcula

Hard

Electric Field from a Uniformly Charged Rod

A researcher is studying the electric field produced by a thin rod of length $$L$$, uniformly charge

Medium

Electric Field from an Extended Linear Charge Distribution

A thin rod of length $$L = 0.50 \; m$$ has a uniform linear charge density $$\lambda = 2.0*10^{-8} \

Hard

Electric Field in a Medium with Spatially Varying Dielectric Constant

A researcher examines the electric field within a material whose dielectric constant varies with pos

Hard

Electric Field in Neural Tissue

In a neuroscience experiment, electrodes are placed near neural tissue to induce electroporation. Th

Extreme

Electric Field Mapping and Superposition

This problem focuses on constructing electric field lines for multiple charge configurations and app

Hard

Electric Field of a Charged Spherical Conductor

A spherical conductor of radius $$R$$ carries a uniform surface charge giving it a total charge $$Q$

Medium

Electric Fields Due to Dipoles

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

Hard

Electric Potential and Potential Energy in a System of Charges

This question focuses on calculating electric potentials and potential differences created by point

Medium

Electric Potential Energy of a Uniformly Charged Rod

Derive an expression for the electric potential energy stored in a uniformly charged rod and discuss

Hard

Electric Potential of a Point Charge: Experimental Investigation

A researcher is studying the electric potential generated by a point charge and comparing theoretica

Medium

Electrostatic Force in an Equilateral Triangle of Charges

This problem examines the net electrostatic force on a charge located at one vertex of an equilatera

Hard

Electrostatic Shielding Experiment

An experiment is set up to investigate how a conducting shell can shield its interior from external

Medium

Evaluating Electric Potential Difference in a Non-Uniform Field

This problem involves integrating a non-uniform electric field to determine the potential difference

Hard

Field and Potential of a Charged Ring

A thin ring of radius $$R = 0.10 \; m$$ carries a total charge $$Q = +1.0*10^{-7} \; C$$ uniformly d

Extreme

FRQ 2: Electric Field Measurement around a Uniformly Charged Sphere

A report claims that the electric field measured outside a uniformly charged sphere obeys the relati

Medium

FRQ 6: Integration for Electric Potential from a Continuous Charge Distribution

A recent study claims that the electric potential produced by a non-uniform line charge can be expre

Extreme

FRQ 7: Experimental Determination of Electric Flux via Gauss' Law

A laboratory report asserts that measurements of electric flux through a cubic surface surrounding a

Medium

FRQ 8: Investigating Insulator Polarization Effects

A recent experiment claims that an insulating material exhibits zero internal electric field due to

Easy

FRQ 17: Experimental Analysis of the Relationship $$E = -\nabla V$$

A media report claims that experimental measurements of the spatial gradient of electric potential v

Hard

Gauss' Law and Cylindrical Charge Distributions

Consider an infinite line of charge with linear charge density $$\lambda$$ and a cylindrical shell w

Medium

Gauss' Law in Practice: Flux Calculation for a Charged Cylinder

Develop an experimental proposal to measure the electric flux through a cylindrical surface surround

Hard

Gauss' Law: Spherical Charge Distribution

A point charge is enclosed within a spherical surface. Analyze the electric flux through the sphere

Medium

Graphical Analysis of Potential Gradient in a Plasma Discharge Tube

In an experiment to analyze spatial variations of electric potential inside a plasma discharge tube,

Hard

Investigating the Relationship between Electric Flux and Surface Geometry

A simulation is designed to explore how electric flux through a surface depends on the geometry of t

Medium

Mapping Equipotential Lines and Electric Fields Around Complex Charge Distributions

Design an experiment to map equipotential lines around a complex electrode configuration. Use your e

Extreme

Measuring Electric Field Gradient in a Non-uniform Field

In an experiment designed to determine the gradient of a non-uniform electric field, the experimente

Extreme

Net Electric Field from Multiple Point Charges

Three point charges are positioned along the x-axis. The charge and position data is provided in the

Hard

Optimization of Non-uniform Charge Distribution

A researcher aims to optimize the electric field at a point P on the y-axis (distance $$d$$ from the

Extreme

Point Charge Interactions and Coulomb's Law

Two point charges are placed along the x-axis in a vacuum. Let $$q_1 = +1.602*10^{-19} \; C$$ be loc

Easy

Potential Difference and Change in Potential Energy

A test charge $$q = +1.602*10^{-19} \; C$$ is moved in the electric field created by a point charge

Medium

Potential from a Line of Charge with Variable Density

A rod extends along the x-axis from $$x = 0$$ to $$x = 0.8 \; m$$. Its linear charge density is give

Extreme

Transient Analysis in a Discharging RC Circuit

Consider the transient behavior of a discharging capacitor in an RC circuit.

Easy

Uniformly Charged Rod Field Calculation

A thin rod of length $$L = 1.00 \; m$$ lies along the x-axis from $$x = 0$$ to $$x = 1.00 \; m$$ and

Hard

Uniformly Charged Sphere: Electric Field and Potential

A sphere of radius $$R$$ carries a uniform charge distribution with a total charge $$Q$$. Analyze th

Hard

Voltage Differences in Resistive Circuits and Electric Potentials

In a resistive circuit, the voltage at several nodes was measured. Use the data provided to analyze

Easy

Work Done by a Uniform Electric Field

This problem examines the work done on a charged particle as it moves in a uniform electric field an

Easy

Work Done by a Variable Electric Field

A test charge $$q$$ is moved along the x-axis through a region where the electric field varies with

Hard

Work Done by Electric Fields: Integral Calculation

Electric fields perform work on charges moving through them. Determine the work done in moving a cha

Medium
Unit 2: Conductors, Capacitors, Dielectrics

AC Response and Displacement Current in a Capacitor

A capacitor with capacitance $$C$$ is connected to an AC voltage source described by $$V(t) = V_0 \c

Hard

Calculus Derivation of Electric Field Around a Charged Cylindrical Conductor

A long cylindrical conductor carries a non-uniform surface charge density given by $$\sigma(z)=\sigm

Extreme

Calculus-Based Analysis of Induced Charge on Shielding Conductors

A point charge is brought near a large, grounded, conductive plate. This induces a non-uniform surfa

Medium

Capacitive Sensor Response

A capacitive sensor is designed to measure tiny changes in the distance between its parallel plates.

Medium

Capacitor Charging in Non-Ideal Circuits

A researcher examines the charging behavior of a capacitor in an RC circuit, where the resistor's va

Extreme

Charge Distribution on an Irregular Conductor

An irregularly shaped conductor exhibits a non-uniform surface charge density $$\sigma(x,y)$$. It is

Hard

Comparative Analysis of Capacitor Types in High-Frequency Applications

Different types of capacitors (ceramic, electrolytic, and film) exhibit varying performance characte

Easy

Derivation of Capacitance Change Due to Temperature-Dependent Dielectric

The dielectric constant of a capacitor material is temperature-dependent, given by $$k(T)=k_i+\delta

Hard

Design and Analysis of a Capacitor Bank for Energy Storage

For a high-energy application, a capacitor bank must be designed to store 1000 joules of energy at 1

Extreme

Designing an AC Circuit with a Capacitor and Calculus Analysis

In an AC circuit, the voltage across a capacitor is given by \(V(t) = V_0 * \sin(2 * \pi * f * t)\),

Medium

Determining Permittivity from Parallel Plate Capacitor Data

An experiment involving a parallel plate capacitor was conducted to determine the permittivity of th

Hard

Dielectric Comparison in Capacitors

Two parallel plate capacitors of identical geometry are constructed. Capacitor A uses glass (with a

Medium

Dielectric Strength and Material Breakdown Analysis

A capacitor with a dielectric material of thickness \(d\) is subject to an electric field. The diele

Easy

Electric Field Distribution on a Conductor

Consider an isolated conductor with a non‐uniform surface curvature. The local charge density, and h

Medium

Electric Field Distribution on a Metal Sphere

A metal sphere of radius $$R$$ is uniformly charged with total charge $$Q$$. Answer the following qu

Easy

Electric Field in a Multi-Layer Dielectric Capacitor

Consider a capacitor consisting of two dielectric layers in series with thicknesses $$d_1$$ and $$d_

Hard

Electric Field on the Surface of a Conductor

A researcher is investigating the behavior of electric fields on the surface of a conductor under el

Easy

Electrostatic Analysis of an Irregular Conductor

An irregularly shaped conductor carries a net charge $$Q$$. Due to its geometry, some regions have h

Hard

Energy Balance in a Non-Ideal RC Circuit

Consider an RC circuit in which a capacitor discharges through a non-ideal resistor whose resistance

Hard

Energy Density Analysis in a Capacitor With a Non-Uniform Electric Field

A capacitor has an electric field that varies with position according to $$E(x) = \frac{V}{d + a \cd

Extreme

Energy Storage in a Parallel Plate Capacitor

A parallel plate capacitor is constructed with plates of area $$A$$ separated by a distance $$d$$ an

Hard

Energy Stored in a Parallel Plate Capacitor - Calculus Based Derivation

A parallel plate capacitor with plate area \(A\) and plate separation \(d\) is filled with a dielect

Hard

Evaluation of Faraday Cage Performance under High-Frequency EMI

A Faraday cage’s performance is tested against high-frequency electromagnetic interference. Using th

Medium

FRQ 2: Effectiveness of a Faraday Cage in Electric Shielding

A researcher builds a Faraday cage of various metal thicknesses and monitors the internal electric f

Medium

FRQ 4: Dielectric Insertion in a Parallel-Plate Capacitor Experiment

In this experiment, a capacitor’s capacitance was measured as a dielectric slab was slowly inserted

Medium

FRQ 4: Parallel Plate Capacitor with Dielectric Insertion

A parallel plate capacitor with plate area $$A$$ and plate separation $$d$$ initially has vacuum bet

Medium

FRQ 5: Capacitor Energy Storage Measurement with Voltage Ramp Experiment

A student charged a capacitor using a voltage source that increased linearly with time, intending to

Medium

FRQ 8: Dielectric Breakdown Analysis under Variable Frequencies

A dielectric material is subjected to an applied voltage at various frequencies. Experimental data s

Hard

FRQ 10: Charge Distribution on Curved Conductors

An experiment is undertaken to measure the electric field strength at various points on an irregular

Medium

FRQ 13: Transient Charging with a Time-Varying Voltage Source

A capacitor was connected to a time-varying voltage source described by $$V(t)=V_0\cdot\sin\left(\fr

Hard

FRQ 16: Measurement of Electric Shielding Effectiveness Using a Conductive Film

An experiment was set up to measure the effectiveness of an electric shield composed of a thin condu

Hard

FRQ 16: Optimizing Faraday Cage Design

An engineering team is testing Faraday cages made with different mesh sizes and metal thicknesses to

Medium

FRQ 17: Optimization of Capacitor Design for Maximum Energy Density

A company is designing a parallel plate capacitor for high-energy storage applications. The energy s

Extreme

FRQ 19: Modeling Capacitance of a Non-Standard Geometric Capacitor

A researcher built a capacitor with non-parallel, curved plates to investigate how plate curvature a

Extreme

Influence of Plate Separation on Capacitance

The capacitance of a parallel plate capacitor is inversely proportional to the distance between its

Medium

Investigating Resistor Heating during Capacitor Discharge

During a capacitor discharge experiment, not only was the voltage across the capacitor measured but

Extreme

Investigating the Role of Curvature on Surface Charge Density in Conductors

A researcher studies a set of conductors with different curvatures (from flat plates to spheres) and

Hard

Modeling a Variable Capacitor in a Tuning Circuit

A variable capacitor in a radio tuning circuit adjusts its capacitance by rotating one of its plates

Medium

Modeling Surface Charge Density and Curvature

For a conductor with non-uniform curvature, the local surface charge density $$\sigma(x)$$ is expect

Extreme

Modeling the Impact of an External Electric Field on a Capacitor with a Dielectric Insert

A researcher examines how an external uniform electric field influences the effective capacitance of

Extreme

Modelling Electric Fields Around a Spherical Conductor

A spherical conductor carrying a net charge is analyzed to determine the electric field both inside

Extreme

Optimization Problem: Maximizing Capacitor Energy Storage

For a parallel plate capacitor, the energy density (energy stored per unit volume) is given by \(u=\

Extreme

Parallel Plate Capacitor Experimental Analysis

An experiment was conducted on a parallel plate capacitor. In this experiment, the voltage across th

Medium

Parallel Plate Capacitor: Effect of Dielectric Insertion

A parallel plate capacitor initially charged to a voltage $$V$$ is modified by the slow insertion of

Medium

RC Filter Circuit Analysis

An RC circuit is used as a low-pass filter. Answer the following: (a) Derive the cutoff frequency $

Medium

Surface Charge Density and Electric Field on a Conductor

Consider a conductor in electrostatic equilibrium. Use Gauss' law to relate the surface charge densi

Medium

Surface Charge Density Determination from Measured Electric Fields

Measurements taken along the surface of a conductor indicate that the electric field varies with pos

Hard

Temperature Effects on Dielectric Strength

The dielectric constant of a material is temperature-dependent and is given by the relation $$k(T)=

Hard

Time-Dependent Dielectric Breakdown Analysis

A dielectric material of thickness $$d$$ has a breakdown electric field strength $$E_{break}$$. In r

Medium

Time-Dependent Leakage in Dielectric Materials

A capacitor exhibits a slow leakage current in addition to the ideal RC discharge behavior, resultin

Hard

Transient Analysis of Capacitor Charging in RC Circuits

Transient analysis of capacitor charging provides insight into the dynamic behavior of RC circuits.

Extreme

Transient Response of Electric Field in Shielded Conductors Under Pulsed Voltage

A pulsed voltage is applied to a shielded conductor. The transient response of the internal electric

Extreme

Tuning Characteristics of a Variable Capacitor in Radio Circuits

Variable capacitors are used in LC circuits for radio tuning. The resonant frequency is given by $$f

Medium
Unit 3: Electric Circuits

AC Circuit Frequency Response with Misapplied Impedance Assumption

A student builds an RLC circuit to investigate its response to an AC voltage source. In the experime

Hard

Analysis of a Non-Ideal Battery's Internal Resistance

A battery’s terminal voltage was measured under various load currents to study the effect of interna

Hard

Analysis of Non-Linear Temperature-Dependent Resistors

Some resistors exhibit a non-linear, exponential dependence on temperature. Analyze such a resistor

Extreme

Analysis of RC Circuit Response Using Laplace Transforms

Consider an RC circuit with a resistor \(R\) and a capacitor \(C\) connected in series to a step vol

Extreme

Analysis of Resonance in an RLC Circuit

Consider a series RLC circuit with R = 10 Ω, L = 0.5 H, and C = 20 μF. Analyze the circuit’s behavio

Extreme

Analyzing Conduction in AC vs DC Circuits

Data was collected from both AC and DC circuits measuring voltage and current across a resistor unde

Medium

Analyzing Measurement Uncertainty in Circuit Diagnostics

A technician using a digital multimeter reports highly consistent current measurements in a circuit.

Medium

Battery EMF with Time-Varying Load

A battery with an electromotive force (EMF) of 9 V and an internal resistance of 0.5 Ω is connected

Medium

Capacitor Charging Diagram Analysis

A graph is provided that represents the capacitor charging process in an RC circuit. Analyze the dia

Hard

Capacitors in Series: Voltage Division Analysis

A series circuit contains three capacitors with values $$C_{1}=2\,\mu F$$, $$C_{2}=3\,\mu F$$, and $

Medium

Complex Impedance in a Mixed Circuit

A circuit comprises a resistor in series with a parallel combination of an inductor and capacitor. A

Extreme

Design and Analysis of an RC High-Pass Filter

A researcher designs an RC high-pass filter using a resistor of $$R=2000\,\Omega$$ and a capacitor o

Hard

Designing a Circuit for Constant Power Output

A circuit designer aims to maintain a constant power output across a variable load resistor. Analyze

Hard

Designing a Low-Pass Filter

A low-pass RC filter is designed to reduce high-frequency noise in a signal. An experiment was perfo

Hard

Determining Battery Internal Resistance from Experimental Data

A set of experiments is performed to determine the internal resistance of a battery. Analyze the exp

Hard

Discharging a Capacitor in an RC Circuit

A capacitor initially charged to voltage $$V_0$$ is discharging through a resistor. Analyze the tran

Medium

Energy Analysis of a Constant Power Load in a DC Circuit

A DC circuit supplies a constant power output to a load over a period of time. Analyze the energy de

Medium

Evaluating Oscilloscope Measurement Accuracy in AC Circuits

During an experiment, voltage waveforms captured by an oscilloscope showed slight distortions compar

Hard

Evaluating Power and Efficiency in an Electric Motor Circuit

This question assesses your understanding of power calculations in electrical circuits and your abil

Hard

FRQ 6: Capacitor Discharging Analysis

A capacitor initially charged to $$10\,V$$ is allowed to discharge through a resistor of $$R = 2\,k\

Hard

FRQ 19: Experimental Design: Measuring Capacitance Using an RC Circuit

Design an experiment to measure the capacitance of an unknown capacitor using its charging curve in

Medium

Function Generator Misconfiguration in AC Circuit Analysis

An experiment is conducted to study the response of an RLC circuit to an AC signal generated by a fu

Hard

Impact of Temperature on Resistance

Resistance in a conductor can change with temperature. Investigate this variation and its implicatio

Medium

Investigating the Effect of Variable Resistance on Circuit Current

A variable resistor (potentiometer) is used in a DC circuit powered by a 12 V battery. Experimental

Medium

Kirchhoff's Current Law in Node Analysis

In a circuit node where multiple branches meet, apply Kirchhoff's Current Law (KCL) to analyze the c

Hard

Kirchhoff's Voltage Law in a Multi-Loop Circuit

A multi-loop circuit contains a 15 V battery and three resistors with values R1 = 3 Ω, R2 = 4 Ω, and

Medium

Measuring Circuit Parameters with Multimeter and Oscilloscope

A technician uses a multimeter and an oscilloscope to determine various circuit parameters. Analyze

Easy

Measuring Power Dissipation in Resistive Circuits

This question examines the derivation of power relationships in resistive circuits and requires you

Medium

Non-Linear Resistor Behavior in Thermistors

Thermistors exhibit a non-linear relationship between voltage and current due to their temperature d

Hard

Power Calculation from Voltage and Current Data

A set of voltage and current measurements were taken from an electrical circuit during an experiment

Easy

RC Circuit Charging and Discharging Analysis

An RC circuit consists of a resistor $$R$$ and a capacitor $$C$$ connected in series with a battery

Medium

RC Low-Pass Filter Design

An engineer is designing an RC low-pass filter to attenuate frequencies above 1 kHz. The filter is c

Medium

RC Oscillator Design

An RC oscillator utilizes an RC network to generate periodic signals. The frequency of oscillation i

Extreme

Resistance Measurements and Conductor Geometry

A uniform wire with a length L = 2 m and cross-sectional area A = 1 mm² (1×10⁻⁶ m²) is made of a mat

Easy

Resonance and Quality Factor in an LCR Circuit

A researcher examines an LCR series circuit comprising an inductor $$L=0.1\,H$$, a capacitor $$C=100

Extreme

Series Circuit Analysis with Calculus Application

A researcher is investigating a series circuit in which three resistors (with initial values $$R_{1}

Medium

Series Circuit Analysis with Time-Varying Source

Analyze a resistive series circuit with three resistors and a battery whose voltage is modulated by

Easy

Series RC Charging Circuit Analysis

A series circuit contains three resistors, R1 = 5 Ω, R2 = 10 Ω, and R3 = 15 Ω, connected in series w

Medium

Solving a Differential Equation in a Series RLC Circuit

In a series RLC circuit, the current is governed by the differential equation $$L*\frac{d^2I}{dt^2}+

Hard

Stability Analysis of an RC Oscillator

An RC oscillator generates oscillations with a frequency given by $$f = \frac{1}{2\pi R C}$$. Due to

Extreme

Studying Frequency Effects on RC Oscillators

An RC oscillator was tested, and its oscillation frequency was recorded for various resistor and cap

Hard

Testing the Superposition Principle in Linear Circuits

This question examines the application of the superposition principle in circuits with multiple inde

Medium

Transient Analysis of an RL Circuit

In an RL circuit, a resistor of $$R = 200\,\Omega$$ and an inductor of $$L = 0.5\,H$$ are connected

Extreme

Transient Analysis of an RLC Circuit with Error in Damping Factor Estimation

A student constructs an RLC circuit to study its transient response to a step input voltage. The pro

Hard

Transient Response of an RC Circuit

An RC circuit with a resistor \(R = 10\,\Omega\) and a capacitor \(C = 2\times10^{-3}\,F\) is connec

Medium
Unit 4: Magnetic Fields

Ampère’s Law in a Toroid

A researcher designs a toroid and wishes to determine the magnetic field inside its core. Given the

Medium

Analysis of Lorentz Force on Charged Particles in Combined Fields

A team of students conducts an experiment to study the deflection of electrons moving through a regi

Extreme

Analysis of Magnetic Field Lines in a Bar Magnet

An engineering design publication claims that the density of drawn magnetic field lines directly cor

Easy

Analysis of Magnetic Field with Varying Current Density

A long, straight wire does not always carry a uniform current. In a certain experiment, the current

Extreme

Analyzing the Effectiveness of an Electromagnet Design

An electromagnet is made by wrapping a coil around a ferromagnetic core. (a) Derive an expression

Medium

Application of the Biot–Savart Law for a Finite Wire

Consider an experiment to measure the magnetic field at a point P due to a finite, straight wire of

Extreme

Application of the Biot–Savart Law to a Finite Wire

A finite straight wire carrying a current produces a magnetic field at a point offset from its midpo

Hard

Assessment of Magnetic Field Variations in Coaxial Circular Loops

A system consists of multiple coaxial circular loops of wire, each with different radii, carrying id

Extreme

Calculus Application: Variable Current and Magnetic Field

A wire has a current that varies along its length according to $$I(x) = I_0*(1 + x)$$, where x is in

Extreme

Calculus in Magnetic Induction: Time-Varying Current Effects

A solenoid with 400 turns over a length of 0.8 m is driven by a time-varying current expressed as $$

Hard

Charged Particle in Combined Electric and Magnetic Fields

In a complex experimental setup, a charged particle is exposed simultaneously to a uniform electric

Hard

Critical Analysis of Ampère's Law in a Non-Uniform Magnetic Field

An experiment uses a loop to measure the magnetic field in a region where the field is non-uniform.

Extreme

Current Distribution in a Solenoid with Variable Turn Density

Consider a solenoid of length $$L = 1.0\,m$$ where the density of turns per unit length varies accor

Extreme

Dependence of Magnetic Field Strength on Distance

A long straight wire carries a current of 10 A. (a) Derive an expression for the magnetic field as a

Medium

Determining Torsional Stiffness from Experimental Data

A wire is subjected to various applied torques causing it to twist by different angles θ. The torsio

Hard

Determining Torsional Stiffness of a Twisted Wire

A wire is twisted by applying a torque, leading to an angular displacement. The relation is given by

Medium

Effect of Magnetic Field Direction Change on a Moving Charged Particle

Design an experiment to study the effect of changing the direction of a magnetic field on the deflec

Hard

Effect of Wire Geometry on Magnetic Field Distribution

Consider two wires carrying the same current I: one is a straight wire and the other is bent into a

Hard

Experimental Analysis of Magnetic Field Variation with Distance

In an experiment, the magnetic field around a long, straight conductor was measured at different dis

Medium

Experimental Analysis: Magnetic Field Strength vs. Distance Using the Right-Hand Rule

A study reports that the magnetic field strength around a current-carrying wire decreases inversely

Medium

Experimental Determination of Torsional Stiffness

A researcher investigates the torsional stiffness of a thin metallic wire by measuring the torque re

Medium

Experimental Verification of the Biot–Savart Law Using a Circular Loop

A student attempts to verify the Biot–Savart Law by measuring the magnetic field along the axis of a

Extreme

Force Between Parallel Current-Carrying Wires

Two long, parallel wires are separated by 0.05 m. Wire 1 carries a current of 7.0 A and Wire 2 carri

Medium

Force Between Parallel Current-Carrying Wires

Two parallel wires, separated by a distance of 5.0 cm, are both carrying a current of 3 A. The curre

Easy

Force Between Parallel Current-Carrying Wires

Two long, parallel wires separated by a distance \(d\) carry currents \(I_1\) and \(I_2\). They exer

Easy

Force Between Two Parallel Current-Carrying Wires

Two long, parallel wires carry currents I₁ and I₂ and are separated by a distance d. (a) Derive th

Easy

Force Between Two Parallel Current-Carrying Wires

Two long, parallel wires separated by distance d carry currents I₁ = 4 A and I₂ = 4 A in the same di

Medium

Force Between Two Parallel Current-Carrying Wires

Derive and analyze the magnetic force between two parallel current-carrying wires using both theoret

Medium

Force Interaction Between Parallel Current-Carrying Wires

Design an experiment to measure the force of interaction between two parallel current-carrying wires

Hard

Force on a Current-Carrying Wire in a Magnetic Field

A straight wire carrying current is placed in a uniform magnetic field. Analyze the problem using th

Medium

Force on a Current-Carrying Wire in an External Magnetic Field

A physics demonstration asserts that the force on a current-carrying wire in an external magnetic fi

Easy

Force on a Curved Current-Carrying Arc

A curved wire in the shape of an arc with radius R and central angle $$\phi$$ carries a current I an

Hard

Force on a Wire Segment at an Angle

A 0.40 m long wire carrying a current of 2.5 A is placed in a uniform magnetic field of 0.15 T. The

Easy

Integral Calculation of the Magnetic Field from a Finite Straight Wire

Consider a finite straight wire of length $$L$$ carrying a steady current $$I$$. Using calculus, der

Extreme

Integrated Evaluation of Ampère's and Biot-Savart Law in Complex Geometries

A comprehensive study asserts that for conductors with irregular shapes, the magnetic field can be a

Extreme

Investigation of Solenoid Magnetic Field Variation with Turns

In this experiment, a student constructs a solenoid and measures the magnetic field inside it using

Medium

Investigation of Torque on a Wire in a Varying Magnetic Field

A laboratory experiment explores how a current-carrying wire experiences torque when subjected to a

Medium

Loop Geometry and Magnetic Field Distribution

Design an experiment to investigate how different loop geometries (circular vs. elliptical) affect t

Medium

Magnetic Field Distribution around a Bar Magnet

A bar magnet produces a magnetic field that is strongest near its poles. Explore the variation in fi

Medium

Magnetic Field in a Toroid

A toroid is a solenoid bent into a circular shape. Consider a toroid with inner radius $$a$$, outer

Hard

Magnetic Field Inside a Solenoid

An experiment is designed to measure the magnetic field inside a solenoid. The solenoid’s field is h

Medium

Magnetic Field Mapping in a Non-Uniform Field

An experiment measures the magnetic field at various distances from a single current-carrying wire.

Extreme

Magnetic Field of a Circular Current Loop via the Biot–Savart Law

The magnetic field at a point along the axis of a circular current loop can be derived using the Bio

Hard

Magnetic Field of a Long Straight Conductor

A power company uses long, straight conductors to transmit electrical power. In one section of the s

Easy

Magnetic Field on the Axis of a Circular Current Loop

Using the Biot-Savart Law, derive and analyze the expression for the magnetic field at points along

Medium

Magnetic Flux through a Non-uniform Loop

A researcher is studying the magnetic flux through a loop that is placed in a spatially varying magn

Hard

Mapping Magnetic Field Directions in a Multi-Wire Assembly

A factory assembly involves multiple wires carrying currents in different directions arranged perpen

Medium

Measurement of Torsional Stiffness in a Twisted Wire

Design an experiment that uses a twisted wire in a magnetic field to measure its torsional stiffness

Hard

Modeling the Interaction of Multiple Magnetic Sources

A region of space contains two distinct magnetic field sources: (1) a long straight wire along the y

Extreme

Time-Varying Current and Its Magnetic Field

A long, straight wire carries a time-varying current described by $$I(t)=I_0\,\sin(\omega\,t)$$. Use

Medium

Torque on a Current Loop

A rectangular loop carrying a current is placed in a uniform magnetic field. (a) Derive an express

Medium

Torque on a Current Loop in a Magnetic Field

A square current-carrying loop with side length $$L$$ is placed in a uniform magnetic field $$B$$. T

Hard

Torque on a Current-Carrying Loop

A rectangular current loop is placed in a uniform magnetic field, generating a net torque due to the

Medium

Torque on a Current-Carrying Loop in a Magnetic Field

A rectangular current-carrying loop is placed in a uniform magnetic field. The torque on the loop is

Hard
Unit 5: Electromagnetism

Analysis of LR Circuit Behavior Using Calculus

Consider an LR circuit consisting of a resistor $$R$$ and an inductor $$L$$ connected in series to a

Hard

Application of Faraday's and Lenz's Laws in an Induction Cooktop

An induction cooktop heats a metal pot by using a coil that produces a rapidly alternating magnetic

Easy

Calculus-based Variation of Induced EMF

A conducting loop is placed in a magnetic field whose flux varies with time according to $$\Phi(t)=3

Extreme

Comparative Analysis of LR and RC Circuits

When subjected to a step voltage, both LR and RC circuits exhibit transient responses characterized

Medium

Comprehensive Analysis of an RLC Circuit

An RLC circuit consisting of a resistor $$R$$, inductor $$L$$, and capacitor $$C$$ is subjected to a

Extreme

Damped Oscillations in a Practical LC Circuit

A real LC circuit contains a small resistance R, causing damping of its oscillations. Consider an LC

Extreme

Deriving Generated EMF in a Rotating Generator

In an electric generator, a coil rotates with constant angular speed $$\omega$$ inside a uniform mag

Hard

Designing an Electromagnetic Braking System

Electromagnetic braking systems use induced currents to generate a retarding force in moving vehicle

Hard

Determining Inductance from a Current Ramp

A single inductor with unknown inductance L is subjected to a linearly increasing current described

Medium

Electromagnetic Braking in a Moving Conductor

A metal plate (considered as a conductor) moves with constant velocity $$v$$ through a region where

Hard

Energy Storage in an Inductor

Consider an inductor of inductance $$L$$ in which the current is gradually increased from 0 to a val

Easy

Estimating Inductance from LR Circuit Data

An experimental LR circuit is used to determine the inductance $$L$$ of an unknown coil. The circuit

Hard

Experimental Determination of Inductance via Magnetic Field Measurements

In a laboratory experiment, a coil with $$N$$ turns is used to measure the change in magnetic flux $

Medium

Experimentally Measuring Magnetic Field Variation

A coil is used to measure the magnetic flux as a magnet is moved relative to it. The following table

Medium

Induced EMF in a Rotating Loop

A rectangular loop of wire with area A rotates with a constant angular speed $$\omega$$ in a uniform

Medium

Induction Coil Experiment and Lenz’s Law

In an experiment, a rectangular coil is rapidly inserted into a solenoid connected to a galvanometer

Easy

Induction Heating and Eddy Currents

In an induction heating device, a time-varying magnetic field is produced by an alternating current

Extreme

Induction Heating and Eddy Currents

Induction heating devices heat metal objects by inducing eddy currents within them. The efficiency o

Medium

Inductor Energy Storage and Discharge

An inductor with inductance $$L$$ carries a steady current $$I$$, thereby storing magnetic energy in

Easy

Investigating Eddy Currents in a Conducting Tube

A magnet is dropped through a non-magnetic, conducting tube. The induced eddy currents in the tube g

Medium

Lenz's Law in a Moving Conductor

A conducting bar of length $$L$$ slides along two parallel rails, forming a closed loop. The bar acc

Hard

Lenz's Law in Magnetic Levitation Systems

Magnetic levitation (maglev) systems use time-varying magnetic fields to induce currents in conducti

Hard

LR Circuit Analysis and Energy Storage

An LR circuit consists of a resistor (R = 5 Ω) and an inductor (L = 0.1 H) connected in series. A co

Hard

Magnetic Field Measurement in a Solenoid

An experiment is carried out to map the magnetic field inside a long solenoid using a Hall probe. Th

Easy

Magnetic Flux Measurement in a Coil

An experiment is designed to measure the magnetic flux through a coil as a magnet is moved toward it

Easy

Magnetic Flux Variation Under Sinusoidal Field

A coil is exposed to a time‐varying magnetic field such that its magnetic flux is given by $$\Phi(t)

Medium

Magnetic Levitation Using Electromagnetic Induction

A magnetic levitation (maglev) system uses electromagnets to levitate a train. As the train moves, a

Extreme

Maxwell’s Displacement Current in a Capacitor

In a parallel-plate capacitor with plate area $$A$$ and separation $$d$$, assume that the capacitor

Hard

Maxwell's Equations Application

In an electromagnetic system with time-varying fields, consider the implications of Maxwell's equati

Extreme

Modeling Anomalous EMF Signals in an Induction Experiment

Experimental data from an induction experiment shows that the induced EMF does not follow an ideal s

Extreme

Modeling Inductive Heating with Eddy Currents

Induction heating relies on eddy currents generated in a conductive material exposed to a time-varyi

Hard

Oscillations in an LC Circuit

An LC circuit consists of an inductor with inductance $$L$$ and a capacitor with capacitance $$C$$.

Hard

Propagation of Electromagnetic Waves via Maxwell's Equations

Electromagnetic waves in a vacuum are governed by Maxwell's equations. Answer the following:

Extreme

Resonant Behavior in an LC Circuit

A researcher sets up an LC circuit with an inductor (L) and a capacitor (C) connected in series to s

Hard

Resonant Frequency Determination in an LC Circuit

An LC circuit is constructed using a capacitor of capacitance $$C = 100\,\mu F$$ and an unknown indu

Hard

Time Constant in an LR Circuit

An experiment is performed to determine the time constant of an LR circuit by measuring the rise of

Easy

Time-Dependent Analysis of LR Circuit with Back EMF

This problem addresses the transient response in an LR circuit with emphasis on back EMF generated b

Hard

Transformer Efficiency Experiment

A researcher investigates a transformer by varying the number of turns in the secondary coil while k

Medium

Transformer Operation Analysis

In a transformer experiment, the primary coil has 100 turns and the secondary coil has 50 turns. The

Medium

Transformer Voltage Ratio and Efficiency

A transformer is built with a primary coil of N₁ = 500 turns and a secondary coil of N₂ = 50 turns.

Medium

Transient Analysis in an LR Circuit

An LR circuit consists of an inductor with $$L=2\;H$$ and a resistor with $$R=4\;\Omega$$ connected

Medium

Transient Response in an LR Circuit

An LR circuit consists of a resistor $$R = 10$$ Ω and an inductor $$L = 2$$ H. A step voltage of 20

Medium

Variable Magnetic Field Experiment

In a solenoid experiment, the magnetic field $$B$$ inside the solenoid varies with time according to

Hard

Verification of Faraday's Law in a Coil

In an experiment to verify Faraday’s Law, a coil is placed in the proximity of an electromagnet whos

Easy

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Where can I find practice free response questions for the AP Physics C: Electricity and Magnetism exam?
The free response section of each AP exam varies slightly, so you’ll definitely want to practice that before stepping into that exam room. Here are some free places to find practice FRQs :
  • Of course, make sure to run through College Board's past FRQ questions!
  • Once you’re done with those go through all the questions in the AP Physics C: Electricity and MagnetismFree Response Room. You can answer the question and have it grade you against the rubric so you know exactly where to improve.
  • Reddit it also a great place to find AP free response questions that other students may have access to.
How do I practice for AP AP Physics C: Electricity and Magnetism Exam FRQs?
Once you’re done reviewing your study guides, find and bookmark all the free response questions you can find. The question above has some good places to look! while you’re going through them, simulate exam conditions by setting a timer that matches the time allowed on the actual exam. Time management is going to help you answer the FRQs on the real exam concisely when you’re in that time crunch.
What are some tips for AP Physics C: Electricity and Magnetism free response questions?
Before you start writing out your response, take a few minutes to outline the key points you want to make sure to touch on. This may seem like a waste of time, but it’s very helpful in making sure your response effectively addresses all the parts of the question. Once you do your practice free response questions, compare them to scoring guidelines and sample responses to identify areas for improvement. When you do the free response practice on the AP Physics C: Electricity and Magnetism Free Response Room, there’s an option to let it grade your response against the rubric and tell you exactly what you need to study more.
How do I answer AP Physics C: Electricity and Magnetism free-response questions?
Answering AP Physics C: Electricity and Magnetism free response questions the right way is all about practice! As you go through the AP AP Physics C: Electricity and Magnetism Free Response Room, treat it like a real exam and approach it this way so you stay calm during the actual exam. When you first see the question, take some time to process exactly what it’s asking. Make sure to also read through all the sub-parts in the question and re-read the main prompt, making sure to circle and underline any key information. This will help you allocate your time properly and also make sure you are hitting all the parts of the question. Before you answer each question, note down the key points you want to hit and evidence you want to use (where applicable). Once you have the skeleton of your response, writing it out will be quick, plus you won’t make any silly mistake in a rush and forget something important.