AP Physics 1: Algebra-Based FRQ Room

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AP Physics 1: Algebra-Based Free Response Questions

The best way to get better at FRQs is practice. Browse through dozens of practice AP Physics 1: Algebra-Based FRQs to get ready for the big day.

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  • Unit 1: Kinematics (57)
  • Unit 2: Dynamics (49)
  • Unit 3: Circular Motion and Gravitation (32)
  • Unit 4: Energy (26)
  • Unit 5: Momentum (24)
  • Unit 6: Simple Harmonic Motion (28)
  • Unit 7: Torque and Rotational Motion (34)
Unit 1: Kinematics

Acceleration Analysis in Uniform and Non-uniform Motion

A group of students records the motion of a toy car that initially starts from rest, accelerates uni

Medium

Acceleration Calculation from Velocity Data

A series of velocity measurements for an object are recorded over time as shown in the table below.

Easy

Air Resistance Negligence in Projectile Motion Error

A student performs an experiment to investigate projectile motion by launching a ball at various ang

Hard

Analysis of a Velocity vs. Time Graph (Non-Uniform Acceleration)

Examine the velocity vs. time graph provided and answer the following questions about the object's m

Hard

Analyzing Motion from a Position vs. Time Graph

Examine the position vs. time graph provided in the stimulus to analyze the object's motion.

Medium

Analyzing Variable Acceleration

An object's velocity is measured at different times as shown below. Use the data to analyze the acce

Hard

Angled Motion: Water Fountain

Water is projected from a fountain at an initial speed of \(15\,m/s\) at an angle of \(45^\circ\) wi

Hard

Baseball Projectile Motion

A baseball is hit off a bench, following a projectile trajectory under ideal conditions with no air

Hard

Braking Distance of a Car

A car traveling at $$25\ m/s$$ comes to a stop under uniform deceleration.

Medium

Calculating Acceleration in Uniformly Accelerated Motion

A car, starting from rest, accelerates uniformly and reaches a final velocity of $$24$$ m/s in $$8$$

Medium

Car Crash Analysis: Motion Under Deceleration

During a crash simulation, a car decelerates uniformly from 25 m/s to 0 m/s in 4 seconds. Analyze th

Hard

Centripetal Motion Error

A student designs an experiment to measure the centripetal acceleration of an object moving in a cir

Medium

Circular Motion: Distance and Displacement on a Track

A researcher studies the motion of a car moving on a circular track with a fixed radius of $$r = 50$

Easy

Circular Track Analysis: Distance vs. Displacement

A runner is recorded while running on a circular track. The following table shows measurements at va

Easy

Collision Analysis: Elastic vs Inelastic Collisions

An experiment is designed using gliders on an air track to study collisions. Two types of collisions

Hard

Comparative Analysis: Scalar vs. Vector Quantities on a Circular Track

A runner completes several laps on a circular track at a constant speed. Answer the following.

Easy

Comprehensive Analysis Using the BIG FIVE Equations

A toy car starting from rest accelerates uniformly in a straight line. The experiment records time,

Easy

Critical Analysis: Acceleration Measurements under Free Fall

In a free fall experiment, objects are dropped from a known height and their fall times are recorded

Medium

Determining Kinematic Quantities from Graph Data

A motion sensor experiment simultaneously records position, velocity, and acceleration graphs for an

Medium

Distance vs. Displacement

This question examines your understanding of the fundamental differences between distance and displa

Easy

Drone Delivery Route

A delivery drone flies from a warehouse to a customer's location. Its flight path is not a straight

Hard

Effect of Launch Angle on Projectile Motion

A projectile is launched with an initial speed of 25 m/s at two different angles: 30° and 60°. Analy

Medium

Evaluating Experimental Data on Uniform Acceleration Using the BIG FIVE Equations

An experiment is conducted to study uniformly accelerated motion. Data for time, velocity, and displ

Hard

Force Vector Addition Experiment

In a laboratory setup, an object is subjected to multiple forces applied at different angles using s

Medium

Free Fall Experiment Analysis

In a free fall experiment, an object is dropped from rest and the distance fallen is recorded at var

Easy

Free Fall Motion Lab

In a free fall experiment, a ball is dropped from rest. Use the data provided to analyze the motion.

Easy

Free-Body Diagram and Kinematics Analysis

A 3-kg block is subject to multiple forces.

Medium

Graphical Analysis of Position vs. Time: Identification and Correction of Errors

Below is a schematic diagram of a position vs. time graph that is intended to represent the motion o

Hard

Impact of Initial Velocity on Projectile Trajectories

Two projectiles, A and B, are launched from the same height with an angle of 45° but with different

Extreme

Influence of Angle on Projectile Motion: A Controlled Experiment

A controlled laboratory experiment is conducted to examine how varying the launch angle affects the

Extreme

Interpreting a Visual Diagram: Position vs. Time Graph Analysis

Below is a diagram intended to represent a position vs. time graph for an object undergoing interval

Hard

Launch Angle Impact Analysis

An experiment records the maximum height and time of flight for a projectile launched at various ang

Medium

Methods for Calculating Displacement

Design a controlled experiment to compare two different methods for calculating displacement: one us

Hard

Motion Sensor and Staircase Displacement Experiment

In this experiment, a motion sensor is used to track a subject as they walk up and down a flight of

Hard

Multi-Dimensional Projectile Motion Analysis

In this advanced experiment, a projectile is launched in a two-dimensional plane and its motion is r

Extreme

Path Analysis: Distance vs. Displacement

An object moves along a path composed of three segments: first, it travels 4 m east, then 3 m north,

Easy

Position vs. Time Graph Analysis

A position versus time graph for an object in motion is provided. Answer the following questions bas

Medium

Projectile Motion Analysis

A projectile is launched from ground level under the given conditions.

Hard

Projectile Motion: Maximum Height and Range

A projectile is launched from the ground with its height described by the equation $$h(t) = -4.9*t*t

Hard

Qualitative Analysis: Effects of Air Resistance on Projectile Motion

Air resistance is often neglected in ideal projectile motion problems. Consider its qualitative effe

Hard

Real-World Application: Rescue Helicopter Drop

A rescue helicopter flying horizontally at 15 m/s at an altitude of 50 m drops a supply package. Neg

Easy

Resolving Force Components on an Inclined Plane

A 10-kg block rests on a 30° inclined plane. Analyze the gravitational forces by resolving the weigh

Medium

Scalar vs. Vector: Lab Report Analysis

A student lab report claims that a measured value of 50 m represents both the distance traveled and

Easy

Simulated Impact Test: Speed and Velocity

In a crash simulation lab, a test vehicle decelerates from a high speed and various sensors record i

Medium

Trajectory of a Ball: Graphical Analysis

A ball is thrown and its trajectory is recorded using a high-speed camera. The resulting parabolic p

Medium

Two-Stage Motion Analysis: Acceleration and Deceleration

An object undergoes two stages of motion. In the first stage, it accelerates uniformly from rest to

Medium

Uniform Acceleration and Displacement of a Car

A car starting from rest accelerates uniformly at 5 m/s² for 10 seconds. Analyze this motion using k

Easy

Uniform Acceleration Graph Analysis Error

A student collects position versus time data for an object undergoing uniform acceleration using a m

Hard

Uniform Acceleration in a Laboratory

In a controlled physics lab experiment, a ball is dropped from a known height and its position is re

Medium

Uniformly Accelerated Motion Investigation

Design an experiment that verifies the BIG FIVE equations of motion for uniformly accelerated motion

Hard

Uniformly Accelerated Motion: Deriving Equations

Derive the kinematic equation for displacement under uniform acceleration, $$s = ut + \frac{1}{2}at^

Extreme

Vector Addition in Displacement

Design an experiment to demonstrate how vector addition can be used to determine the net displacemen

Medium

Vector Addition in Two-Dimensional Displacement

An object moves in two stages: first, it travels 6 m at an angle of 30° above the horizontal; then,

Medium

Vector Addition in Two-Dimensional Motion

A hiker takes two sequential displacements: first, 8 m east, and then 6 m north. Answer the followin

Medium

Vector Addition: Forces on an Object

An object is subjected to two forces: one force of 10 N acting due East and another force of 15 N ac

Medium

Video Analysis of Accelerated Motion

In this experiment, students record a toy car moving along a track using a video camera to determine

Hard

Work Done and Energy Considerations in Accelerated Motion

A block on a frictionless surface accelerates uniformly under a constant net force. Consider the blo

Medium
Unit 2: Dynamics

Action-Reaction Forces on Ice Skaters

Two ice skaters push off from one another on a nearly frictionless ice surface.

Easy

Analysis of a Rope-Pulley and Force System in a Rescue Operation

During a rescue operation, a team uses a rope and pulley system to lift a victim from debris. The vi

Hard

Analysis of Forces during a Car Crash

A 1200 kg car moving at 20 m/s crashes into a stationary barrier and comes to rest in 0.25 s. Use im

Easy

Analyzing a Car Crash: Friction, Inertia, and Safety

A transportation safety study claims that an abrupt car stop during a crash can be perfectly modeled

Hard

Analyzing Forces on a Frictionless Cart

A student investigates the motion of a cart on a frictionless track by applying different constant f

Easy

Analyzing Impulse in a Collision

During a collision experiment, the force exerted as a function of time is recorded, and the graph be

Hard

Applied Force at an Angle on a Block

A 10 kg block rests on a horizontal surface with a kinetic friction coefficient of $$\mu_k = 0.3$$.

Medium

Center of Mass and Tipping Point Experiment

A composite object consisting of two connected masses is placed on an inclined plane to determine th

Hard

Collision Analysis on a Frictionless Surface

A 1 kg object moving at 8 m/s collides head-on with a stationary 2 kg object and they stick together

Easy

Comparing Gravitational and Inertial Mass

An experiment is conducted to compare gravitational mass with inertial mass.

Medium

Critical Evaluation of an Experiment on Energy Dissipation in Colliding Cars

A media report claims that in a rear-end collision, nearly all the kinetic energy of the vehicles is

Hard

Designing a Multi-Factor Experiment for Vehicle Safety Dynamics

Design a comprehensive experiment to investigate how various forces (such as friction, tension, and

Extreme

Designing a Pulley System to Study Accelerated Motion

Develop an experimental design using an Atwood machine (a pulley system with two masses) to measure

Medium

Dynamics Analysis: Banked Curve Without Friction

A car negotiates a banked curve of radius $$r = 50 * m$$ and banking angle $$\theta = 20°$$ with no

Hard

Dynamics and Energy Analysis in a Roller Coaster

A roller coaster car of mass 500 kg descends a frictionless track from a height of 20 m.

Hard

Dynamics FRQ #8: Friction on a Rough Surface

A 10.0 kg block slides on a horizontal surface. A constant 30 N force is applied, while the coeffici

Medium

Dynamics FRQ #18: Normal Force on a Curved Surface

A roller coaster car of mass 500 kg travels over the top of a convex hill with a radius of curvature

Medium

Dynamics Problem 7: Action-Reaction in Skater Push-Off

Two ice skaters, Skater A (mass = $$50\ kg$$) and Skater B (mass = $$70\ kg$$), stand at rest on a f

Easy

Dynamics Problem 9: Impulse from a Force-Time Graph

A force is applied to a small cart for a short duration, and the force varies with time. A force vs.

Medium

Dynamics Problem 11: Effects of Friction on a Cart

A small cart of mass $$m = 3\ kg$$ moves along a horizontal track. Initially, the cart moves on a fr

Medium

Dynamics with Variable Mass: A Rocket Analogy

In a modified dynamics experiment, a cart is designed to gradually lose mass (for example, by ejecti

Hard

Effect of Friction on a Moving Object on an Inclined Plane

An object slides down an inclined plane where friction plays a non-negligible role. A researcher inv

Medium

Energy and Dynamics: Understanding Work and Force

A researcher studies the work done on an object as it is pushed up a ramp. The investigation examine

Medium

Energy and Newton's Laws: Work Done Against Friction

A box of mass 8 kg is pushed over a distance of 5 m on a rough horizontal surface. The coefficient o

Easy

Evaluating Dynamic Equilibrium: Forces and Acceleration

A researcher examines objects moving at a constant velocity (dynamic equilibrium) on a horizontal su

Easy

Evaluating Newton's Third Law in Action-Reaction Pairs

A researcher investigates the force interactions between a person and a boat when the person jumps o

Easy

Exploring the Transition from Static to Kinetic Friction

Design an experiment to measure the coefficient of static friction and observe its transition to kin

Medium

Force Analysis on a Rotating Platform

A 70 kg person stands on a rotating platform of radius 2 m. The platform rotates with an angular spe

Hard

Forces on an Inclined Plane

Analyze the dynamics of an object on an inclined plane with friction and an applied force.

Hard

Free-Body Diagram and Dynamics Analysis

An object of mass $$m$$ is placed on a frictionless inclined plane at an angle $$\theta$$. Analyze t

Easy

Frictional Force and Acceleration Experiment

Students investigate the relationship between applied force and acceleration on a dynamics cart by a

Hard

FRQ1: Dynamics on a Frictionless Track

In an experiment, a cart is pushed along a frictionless track with varying net forces. Analyze the d

Easy

FRQ2: Projectile Motion Analysis Using a Velocity-Time Graph

A projectile is launched vertically upward. A velocity vs. time graph is provided. Analyze the graph

Medium

FRQ18: Constant Force and Varying Mass

An experiment uses a constant applied force of 10 N on objects of different masses. The resulting ac

Easy

Impact of Varying Mass on Acceleration

Two carts move along a frictionless track. One cart has mass $$m$$, and the other has a slightly inc

Medium

Inclined Plane Dynamics with Friction

A block of mass $$m = 5 ~kg$$ is placed on a 30° inclined plane. The coefficient of kinetic friction

Medium

Inertial Measurements in Rotating Frames

A popular physics demonstration claims that instruments operating in a rotating frame consistently r

Medium

Investigating Frictional Forces on an Inclined Plane

Design an experiment to measure the coefficient of kinetic friction for a block sliding down an incl

Medium

Investigating Inertial Mass through Force Application Experiments

A student runs an experiment to measure inertial mass by applying different known forces to an objec

Medium

Investigating Normal Force Variations on an Uneven Surface

An object moves along an uneven, curved path such as a roller coaster loop where the normal force ch

Hard

Investigation of Applied Force Effects

Design an experiment to investigate how varying magnitudes of an applied force affect the accelerati

Medium

Investigation of Newton's Third Law Using Collision Experiments

Two gliders on an air track undergo a collision, and force sensors measure the force versus time dur

Hard

Mass Distribution and Center of Mass

Explore the concept of center of mass and its influence on the dynamics of a system.

Medium

Moment of Inertia Measurement

A disk is rotated by applying a constant tangential force at its edge, and its angular acceleration

Hard

Multiple Forces on an Inclined Plane

A 10 kg block slides down a 30° inclined plane with a coefficient of kinetic friction of 0.2. Analyz

Medium

Projectile Motion with Air Resistance Idealization

A projectile is launched with an initial speed $$v_0 = 20 * m/s$$ at an angle $$\theta = 30°$$ above

Hard

Reaction Forces in a Collision Event

During a collision, two masses undergo changes in momentum. An experiment recorded the following dat

Hard

Tension Analysis in a Stationary Object

A mass is hanging from a rope attached to a ceiling. Consider the forces acting on the mass when it

Easy

Theoretical Impact of Air Resistance on a Falling Object

A 2.0-kg object is dropped and falls under gravity while experiencing an air resistance (drag) force

Extreme
Unit 3: Circular Motion and Gravitation

Analysis of the Impact of Varying Mass on Free Fall Acceleration

In a vacuum, free-fall experiments were performed by dropping objects of different masses from the s

Easy

Analyzing Circular Motion in a Race Car Turn

A race car with a mass of 800 kg is negotiating a circular turn of radius 50 m at a constant speed o

Medium

Analyzing the Transition from Circular to Elliptical Orbits

Design a simulation-based experiment to analyze how a slight increase in the orbital speed of a sate

Extreme

Artificial Gravity in a Rotating Space Station

A rotating space station creates artificial gravity through centripetal acceleration. Answer the fol

Extreme

Ball on a String: Uniform Circular Motion Analysis

A student sets up an experiment to analyze uniform circular motion using a ball attached to a string

Easy

Car on a Circular Track: Maximum Speed Analysis

A car of mass $$m$$ negotiates a circular turn of radius $$r$$ on a level road. The maximum static f

Medium

Centrifuge Dynamics

A laboratory centrifuge spins a sample in a tube along a circular path of radius $$r$$ at a constant

Medium

Centripetal Acceleration Dependency on Speed: Data Table Analysis

This problem asks you to use experimental data to analyze the relationship between speed and centrip

Medium

Centripetal Force in a Banked Curve

A car rounds a banked curve where the road is inclined at a certain angle, and friction is negligibl

Hard

Charged Particle in Circular Orbit

A stationary charged sphere with charge $$Q = 5.0 \times 10^{-6} \;C$$ is fixed at the center of a f

Hard

Comparative Analysis of Electric and Gravitational Forces

A charged particle moves in a circular path under the influence of an electric force, while gravitat

Medium

Comparative Analysis of Gravitational Acceleration on Different Planets

A table provides the mass and radius for two different planets. Use these data to analyze the gravit

Medium

Comparing Effects of Circular Motion and Gravitational Orbits

A satellite orbits a planet while an object is undergoing uniform circular motion in a laboratory. A

Extreme

Comparing Observed and Predicted Acceleration in Circular Motion

In an experiment, the observed centripetal acceleration was compared with the theoretical prediction

Medium

Designing a Circular Motion Laboratory Experiment

Design an experiment to study the relationship between centripetal acceleration and radius for an ob

Hard

Designing a Lab to Measure Air Resistance Effects on Free-Fall Acceleration

Design a comprehensive experiment to investigate how air resistance affects the measured free-fall a

Medium

Determining the Gravitational Constant G Using a Torsion Balance

Design an experiment using a torsion balance to measure the gravitational constant $$G$$. Your desig

Extreme

Effect of Changing Radius on Centripetal Acceleration

This problem examines how centripetal acceleration changes with the radius of the circular path when

Easy

Effect of Charge Distribution on Electric Forces

An insulating rod with a non-uniform charge distribution is studied by measuring the electric force

Hard

Effects of Changing Radius on Uniform Circular Motion

An object is moving in a circular path at a constant speed. (a) Derive the relationship that shows h

Easy

Electric Force Measurement in Circular Motion Setup

A student designs an experiment in which a charged particle is directed into a circular path by elec

Hard

Electric Force vs. Gravitational Force Comparison

Consider two objects placed 0.5 m apart. One scenario involves two masses, and the other involves tw

Medium

Estimating the Required Charges for Equilibrium in a Charged Rotating System

A system consists of two small charged spheres that rotate about a common center. The only force pro

Hard

Gravitational Acceleration Measurements

A researcher is using a simple pendulum to measure the local gravitational acceleration (g). The fol

Medium

Gravitational vs Electric Force Experiment: Conceptual Error Analysis

A group of students designs an experiment to compare gravitational and electric forces acting on sma

Extreme

Impact of Radius Variation on Uniform Circular Motion

In an experiment designed to study uniform circular motion, a student varies the radius of the circu

Medium

Investigating Gravitational Acceleration at Different Altitudes

A free-fall experiment is conducted at various altitudes above the Earth's surface. Assume that Eart

Medium

Investigation of Free-Fall Motion

In a vacuum chamber, objects are dropped from a known height of 20 m. The recorded free-fall times f

Easy

Orbital Speed Variation in Circular Orbits

A student uses a computer simulation to study the orbital speeds of satellites in circular orbits ar

Hard

Pendulum Motion in a Vertical Circle

A pendulum bob of mass 2 kg is attached to a string of length 3 m and moves in a vertical circle. At

Hard

Satellite Motion and Free-Body Analysis

This problem involves analyzing a satellite in orbit, including drawing a free-body diagram and deri

Hard

Spinning Ice Skater's Arms

An ice skater rotates with arms extended. With arms extended, the hand moves with a linear speed of

Medium
Unit 4: Energy

Analysis of Mechanical Energy Conservation in a Pendulum

A pendulum with a 2 kg bob is released from a height of 1.5 m above its lowest point. Answer the fol

Easy

Analyzing the Work-Energy Theorem through a Spring Launch Experiment

In this experiment, a spring launcher propels a mass horizontally. The spring is compressed a known

Hard

Assessing Energy Loss due to Air Resistance in a Free Fall

A skydiver of mass $$80\,kg$$ jumps from a balloon at an altitude of $$3000\,m$$. After deploying th

Medium

Comparative Power Outputs in Different Systems

Two machines are used for similar tasks. Machine A operates at a constant power output of $$2000\;W$

Hard

Designing an Experiment to Determine Frictional Force

Design an experiment to measure the frictional force acting on a sliding block on a horizontal surfa

Extreme

Effective Force Measurement in a Pulley Experiment

A student tests a pulley system by lifting a load and measuring the force using a calibrated weight

Medium

Efficiency and Power Loss in a Mechanical System

Examine the experimental data of a mechanical system that measures input energy, output energy, and

Medium

Forces and Energy in a Bicycle Ride

A cyclist with a total mass (including the bicycle) of $$80\,kg$$ rides uphill and gains a vertical

Easy

Investigating the Dynamics of Rotational Work and Power in a Flywheel System

A flywheel is accelerated by an electric motor and its angular displacement, applied torque, and tim

Extreme

Investigation of Mechanical Energy in a Roller Coaster Model

A model roller coaster is built and data are collected on the speed of the coaster at different poin

Hard

Kinetic Energy in Free Fall

A 5 kg object is dropped from rest from a height of 20 m. Answer all parts.

Easy

Lab Investigation: Work During Stair Climbing

In a laboratory experiment, a subject climbs a flight of stairs with a vertical height of 3 m while

Medium

Lifting and Mechanical Energy

A person lifts a 50 kg mass vertically upward from the ground to a platform that is 3 m high. Answer

Medium

Mechanical Energy in a Spring-Loaded Apparatus

A researcher investigates a spring-loaded mechanism. A spring with a spring constant of $$k = 200 \;

Hard

Nonconservative Losses in an Elastic Collision Experiment

In an experiment, a student investigates energy conservation during an elastic collision between two

Easy

Power Output in a Weight Lifting Competition

Two athletes participate in a weight lifting competition. Data on the mass they lifted, the height,

Easy

Power Output Variability in a Walking Robot

A walking robot performs cyclic motion. In one cycle, the robot does 150 J of work in 2 seconds. Ans

Easy

Quantitative Analysis of Friction Work

A 2 kg block is sliding on a rough horizontal surface and comes to rest after traveling a distance o

Easy

Work and Energy in Circular Motion

Analyze the experimental data from a vertical loop where an object's speed is recorded at different

Extreme

Work Done Along Different Paths

A cart is moved from point A to point B by applying a constant force of 50 N. Two paths are availabl

Extreme

Work Done at an Angle

A force of 50 N is applied to a block on a frictionless horizontal surface at various angles. With a

Easy

Work Done at an Angle

A force of 100 N is applied to a crate at an angle of 40° above the horizontal, moving the crate 5 m

Easy

Work Done by a Variable Force

In an experiment, a cart is subjected to a variable force along its displacement. A graph of force v

Hard

Work on an Inclined Plane with Friction

A 2 kg block slides down a 30° inclined plane that is 4 m long. The coefficient of kinetic friction

Medium

Work-Energy Analysis in a Vehicle Collision

A vehicle of mass $$1000\,kg$$ traveling at an initial speed of $$20\,m/s$$ collides with a barrier

Extreme

Work-Energy Calculations in a Laboratory Experiment

In a lab experiment, a cart is subjected to a constant force during three separate trials as it move

Hard
Unit 5: Momentum

Assumption of Perfect Elasticity without Considering Collision Deformation

In this experiment, bouncy balls collide on a hard surface and their velocities are measured to stud

Hard

Billiards Ball Collision Analysis

In a game of billiards, a cue ball of mass $$0.16\,\text{kg}$$ moving at $$2.5\,\text{m/s}$$ strikes

Medium

Collision and Rebound in a Roller Coaster Car

A 300-kg roller coaster car traveling at $$10 \ m/s$$ collides with a safety bumper and comes to a s

Medium

Crash Test Analysis: Impulse and Momentum

An automobile crash test provides the following force vs. time data: | Time (s) | Force (N) | |----

Hard

Data Analysis of Collision from Velocity Graph

The velocity vs. time graph for Glider A during a collision on an air track is provided. Assume Glid

Medium

Design an Experiment to Verify Momentum Conservation

Design a controlled laboratory experiment to verify the law of conservation of linear momentum. Your

Medium

Designing an Air Track Experiment for Momentum Conservation

A student plans to verify momentum conservation using an air track and gliders. The experiment invol

Easy

Evaluating Momentum in Multi-Stage Collisions

A system of three objects (A, B, and C) on a frictionless track undergoes sequential collisions. Dat

Extreme

Experimental Analysis of Momentum Transfer

An experiment using carts on an air track measured momentum before and after collisions to test mome

Medium

Improper Setup of Reference Frame in a Multi-Cart Collision

In this experiment, several carts on an air track collide, and the momentum of the system is analyze

Hard

Impulse and Momentum: Data Interpretation

A student performs an experiment to study the relationship between impulse and the change in momentu

Medium

Impulse Calculation from a Force-Time Graph

An object is subjected to a force that varies with time as depicted in the graph below.

Easy

Impulse Calculation from a Time-Varying Force Function

A force is applied to an object according to the function $$F(t) = 5 * t$$ (in newtons) for $$0 \le

Extreme

Impulse from a Force-Time Graph

An object is subjected to a varying force generated over a 4-second interval as a function of time.

Medium

Impulse in Kicking a Soccer Ball

A soccer ball with a mass of 0.43 kg is kicked from rest and reaches a speed of 15 m/s. The contact

Easy

Impulse in Non-collisional Interactions

An experiment uses a fluid jet that impinges on a paddle wheel, generating an impulse that rotates t

Hard

Inelastic Collision Investigation

A researcher observes an inelastic collision in which two vehicles collide and stick together. The e

Medium

Multi-Object Collision Momentum Transfer

Three objects collide and stick together. The following table provides the experimental data for the

Hard

Multi-Stage Collisions Analysis

A system involves sequential collisions. First, Cart 1 (mass $$2$$ kg, velocity $$4$$ m/s) collides

Hard

Real-World Application: Vehicle Collision Reconstruction

A crash reconstruction team is analyzing a two-vehicle collision. Vehicle A (mass = $$1500$$ kg) is

Extreme

Soccer Player Collision Analysis

During a soccer match, two players collide. Player A (mass 70 kg) is running at 6 m/s and Player B (

Medium

Traffic Safety and Momentum in Multi-Car Collisions

A traffic safety study reconstructs a multi-car collision where several vehicles collide and move to

Extreme

Two-Car Collision Analysis

Two cars collide and stick together in a perfectly inelastic collision. The table below provides the

Hard

Two-Dimensional Collision Analysis

Two hockey pucks on an air-cushioned table undergo a collision. Their initial data are provided in t

Hard
Unit 6: Simple Harmonic Motion

Analysis of Phase Constant in SHM

For a mass-spring oscillator described by $$x(t)=A\cos(\omega t+\phi)$$, consider that at \(t=0\) th

Medium

Comparative Dynamics: Pendulum vs. Mass-Spring System

Compare the dynamics of a simple pendulum and a mass-spring oscillator.

Medium

Comparing Amplitude Effects

Two identical mass-spring systems oscillate with different amplitudes: System 1 has $$A_1 = 0.10 m$$

Medium

Comparing Pendulum and Mass-Spring Systems

Pendulum and mass-spring systems both exhibit SHM but differ in their restoring forces and energy tr

Medium

Conservation of Energy in SHM

An experiment monitored the kinetic and potential energies of a mass-spring system undergoing simple

Medium

Determining Spring Constant from Energy Measurements

A mass-spring oscillator has a measured amplitude of 0.25 m and a total mechanical energy of 3.125 J

Medium

Effect of a Change in Spring Constant on Oscillation Frequency

An experiment measured the frequency of a mass-spring oscillator for different spring constants. Ana

Medium

Effect of Amplitude on Energy in SHM

For a mass-spring system in simple harmonic motion, the total mechanical energy is directly related

Easy

Effect of Amplitude on SHM System

A researcher investigates the effect of varying amplitude in a spring-mass system while keeping the

Medium

Effect of Phase Angle on SHM Motion

A researcher studies the effect of changing the phase angle $$\phi$$ in the SHM equation $$x = A \co

Medium

Effect of Spring Constant Variation on Oscillation

In an experiment, a mass-spring system is used where different springs with varying spring constants

Hard

Energy Conservation in SHM

A mass-spring system undergoing SHM has an amplitude of $$A = 0.20 m$$ and a spring constant of $$k

Medium

Energy Conversion in SHM

A mass-spring system undergoing simple harmonic motion has amplitude $$A$$ and spring constant $$k$$

Medium

Evidence of Damping in Oscillatory Motion

An experiment studying a damped oscillator records the amplitude of oscillation at successive time i

Medium

Exploring SHM in Pendulums

Examine the validity of the small-angle approximation used in simple pendulum motion.

Medium

Impact of Amplitude on SHM Characteristics: Theoretical and Experimental Analysis

Although the theory of simple harmonic motion predicts that the period is independent of amplitude,

Medium

Investigating Hooke's Law

A student is carrying out an experiment to verify Hooke's Law for a vertical spring system. The stud

Easy

Mass-Spring Energy and Oscillations

Consider a block of mass $$m$$ attached to a spring with spring constant $$k$$ undergoing simple har

Medium

Mass-Spring Oscillator Data Analysis

A researcher investigates a mass-spring oscillator system by varying the mass attached to a spring a

Medium

Measurement of the Spring Constant via SHM Data

An experiment is designed to determine the spring constant, k, of a spring using a mass-spring syste

Medium

Non-Ideal Effects in SHM

Real oscillatory systems often deviate from ideal SHM due to friction and air resistance. Consider a

Medium

Oscillatory Motion with Variable Amplitude

Explore the behavior and safety implications of a driven harmonic oscillator with variable amplitude

Extreme

Pendulum Energy Considerations

A simple pendulum undergoing small-angle oscillations is released from a small initial displacement.

Medium

Pendulum Motion Comparison

Pendulums are a common example of systems exhibiting periodic motion. Answer the following:

Easy

Period and Frequency Relationship Analysis

Examine the relationship between the period and frequency of an oscillator using the provided data.

Easy

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Unit 7: Torque and Rotational Motion

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Where can I find practice free response questions for the AP Physics 1: Algebra-Based 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 1: Algebra-BasedFree 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 1: Algebra-Based 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 1: Algebra-Based 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 1: Algebra-Based 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 1: Algebra-Based free-response questions?
Answering AP Physics 1: Algebra-Based free response questions the right way is all about practice! As you go through the AP AP Physics 1: Algebra-Based 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.