AP Physics 1: Algebra-Based FRQ Room

Ace the free response questions on your AP Physics 1: Algebra-Based exam with practice FRQs graded by Kai. Choose your subject below.

Which subject are you taking?

Knowt can make mistakes. Consider checking important information.

Pick your exam

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.

  • View all (250)
  • Unit 1: Kinematics (65)
  • Unit 2: Dynamics (50)
  • Unit 3: Circular Motion and Gravitation (27)
  • Unit 4: Energy (27)
  • Unit 5: Momentum (25)
  • Unit 6: Simple Harmonic Motion (25)
  • Unit 7: Torque and Rotational Motion (31)
Unit 1: Kinematics

Acceleration Analysis in Free Fall: Building Drop

An object is dropped (with zero initial velocity) from the top of a 45 m tall building. Neglect air

Easy

Acceleration Calculation from Changing Velocity

Using the velocity data provided in the table below, calculate the object's acceleration over each t

Easy

Acceleration Calculation from Velocity Data

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

Easy

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 Circular Motion: Displacement and Distance

A car drives exactly one lap around a circular track with a circumference of 400 m. Answer the follo

Easy

Angled Projectile Motion Analysis

In a lab, projectiles are launched at various angles with a constant initial speed. The horizontal a

Medium

Average Acceleration in Non-uniform Motion

An object’s velocity is recorded over time as shown in the table below.

Extreme

Car Motion: Scalar vs. Vector Analysis

A car travels in two segments: first 100 m due north, then 50 m due east. Use the provided table to

Easy

Comparative Analysis of Distance vs. Displacement on a Winding Path

An object is set to traverse a course that includes various curves and turns. Design an experiment w

Easy

Comparative Position Analysis

The following graph represents the position vs. time data for two objects, A and B. Object A's motio

Medium

Comparing Uniform and Non-Uniform Acceleration

Discuss the differences in the graphical representations of uniformly accelerated motion versus non-

Easy

Distance and Displacement - Straight Paths

This question explores the fundamental differences between distance and displacement. Answer the fol

Easy

Distance and Displacement from Position Data

An object is moving along a straight line and its position is recorded at various times as shown in

Easy

Distance and Displacement: A Walk in the Park

An individual takes a walk through a park following four segments: 10 m east, 5 m north, 10 m west,

Easy

Elevator Motion Analysis

An elevator in a multi-story building exhibits varying motion: starting from rest, accelerating, mov

Easy

Energy Considerations in Accelerated Motion

A 1500-kg car accelerates uniformly from rest to $$25 \; m/s$$ over a distance of 200 m. Use kinemat

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

Experimental Data: Analyzing Speed and Velocity Graphs

A graph representing speed versus time for an object is given by the equation $$s(t) = 5*t+2$$. Anal

Hard

Free Fall Acceleration Verification

Design a controlled experiment to verify the acceleration due to gravity (using $$g = 9.81 \text{ m/

Medium

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 Fall Motion: Dropped Object

An object is dropped from a height of $$45 \text{ m}$$. Assume the acceleration due to gravity is $$

Medium

Free Fall: Motion Under Gravity

A researcher drops a ball from a 45 m tall building. Neglecting air resistance, answer the following

Medium

Frictionless Track Motion Analysis Experiment

A cart is launched on a so-called frictionless track and its motion is recorded using sensors. The e

Easy

Frisbee Flight Dynamics

A friend throws a frisbee with an initial speed of $$12\ m/s$$ at an angle of $$45^\circ$$. Assume i

Easy

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

Initial Velocity Comparison in Uniform Acceleration

An experiment recorded the motion of two objects undergoing uniform acceleration with different init

Medium

Interpreting Motion Graphs: Position, Velocity, and Acceleration

Examine the provided position vs time and velocity vs time graphs for an object in motion. Answer th

Medium

Investigating Acceleration with Varying Net Forces

Design an experiment using a frictionless cart on a track to study how varying the net force applied

Hard

Investigating Vector Addition in Force Analysis

A claim in a recent study stated that "all forces can be added simply by summing their magnitudes."

Hard

Kinematics of a Decelerating Vehicle

A truck decelerates uniformly from an initial speed until it comes to a stop. Analyze the following.

Easy

Lab Report Analysis: Measuring Time of Flight for a Thrown Ball

A lab report describes an experiment in which the time of flight of a ball thrown horizontally was m

Easy

Methods for Calculating Displacement

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

Hard

Motion on an Inclined Plane: Calculating Acceleration and Displacement

A ball is released from rest at the top of an inclined plane. A researcher measures the time taken a

Medium

Motion with Reverse Direction: Distance vs. Displacement

This question examines situations where an object’s path results in a different distance traveled co

Easy

Multi-Directional Displacement Analysis

Analyze the following multi-segment path and calculate the displacement and distance.

Extreme

Pendulum Energy Experiment Error

A student attempts to verify the conservation of mechanical energy in a pendulum by measuring its ki

Hard

Pendulum Length and Period Experiment

In a pendulum experiment designed to investigate the relationship between length and period, student

Medium

Position vs Time Graph Analysis

A position vs. time graph for an object in one-dimensional motion is provided. Answer the following

Medium

Position vs Time Graph Interpretation

A composite position vs. time graph shows various segments where an object accelerates, decelerates,

Medium

Position vs. Time Graph Analysis

This question focuses on interpreting a position versus time graph and connecting its features to ve

Medium

Position vs. Time Graph Analysis

Examine the following position vs time graph which is composed of two segments: an initial curved se

Medium

Position vs. Time Graph Interpretation

A position versus time graph for an object in motion is provided. The graph shows a non-linear (curv

Medium

Position, Velocity, and Acceleration Graph Analysis Experiment

In a physics lab, a motion sensor records the position versus time of a moving object. The resulting

Medium

Projectile Motion Analysis

An experiment investigates projectile motion by launching an object at different angles. The followi

Medium

Projectile Motion Analysis

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

Hard

Projectile Motion with Ramp Launch

A car drives off a ramp with a speed of 15 m/s at an angle of 20° above the horizontal. The end of t

Medium

Projectile Motion: Angle and Range Optimization

Analyze a projectile launched with an initial speed $$v_0$$ from the ground. Answer the following pa

Hard

Projectile Motion: Launching a Ball

A ball is launched with an initial speed of 20 m/s at an angle of 30° above the horizontal. Use proj

Medium

Ramp Acceleration and Slope Measurement Experiment

In an experiment involving a cart on an adjustable ramp, students measure the time taken for the car

Hard

Skateboard Ramp Projectile Motion

A skateboarder launches off a ramp with an initial speed of $$15\ m/s$$ at an angle of $$20^\circ$$

Hard

Speed Versus Velocity Analysis

A car’s motion along a straight road is recorded in the table below. Use the data to calculate and c

Medium

Speed vs. Velocity Concepts

This question explores the conceptual differences between speed and velocity. Answer the following p

Easy

Speed vs. Velocity: An Object's Journey

An object moves in four segments as given in the table below. Analyze the object's motion by calcula

Medium

Transition from Uniform to Non-Uniform Acceleration

Design an experiment to investigate the conditions under which an object transitions from uniform to

Extreme

Two-Dimensional Displacement Analysis

A delivery drone flies in two legs. First, it flies 8 m due east. Then, it flies 6 m at an angle of

Hard

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 Analysis Using BIG FIVE Equations

A car starting from rest accelerates uniformly. Data for a trial is provided below. Use the provided

Easy

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: Car Braking Experiment

A car traveling at $$28\ m/s$$ comes to a stop by applying the brakes uniformly. Answer the followin

Medium

Using Graphical Data to Determine Acceleration

A set of experimental data is provided in the table below showing the velocity of an object over tim

Medium

Vector Addition and Net Displacement

A traveler moves according to three displacement vectors: $$\vec{d_1} = (3, 4)\, m$$, $$\vec{d_2} =

Easy

Vector Addition in Displacement Analysis

Two displacement vectors are given: one with a magnitude of 5 m directed east and another with a mag

Hard

Vector and Scalar Quantities Review

Consider the following physical quantities: mass, displacement, speed, acceleration, and energy. Cla

Easy

Vector vs. Scalar Quantities: Experimental Evaluation

A recent media report claimed that "all physical quantities inherently have a direction." Using the

Easy

Vibrational Motion and Simple Harmonic Motion (SHM) Experiment

A mass-spring system is used to investigate simple harmonic motion. The period of oscillation is rec

Medium
Unit 2: Dynamics

Analyzing Forces in a Multi-Directional Collision

Two objects collide at an angle, causing forces to act in multiple directions. A researcher is taske

Extreme

Centripetal Force in Circular Motion

Explore the dynamics of circular motion and the associated centripetal force acting on an object.

Hard

Designing a Safety System Using Dynamics Principles

Engineers are designing a safety harness system for vehicles to minimize forces on passengers during

Medium

Dynamic Analysis of a Multi-car Train

A train consists of three cars, each with a mass of 5000 kg, pulled by a locomotive that provides a

Medium

Dynamic Analysis of a Pushing Force on a Shopping Cart

A shopper applies variable forces to a 15.0-kg shopping cart on a nearly frictionless supermarket fl

Easy

Dynamic Analysis of a Swinging Pendulum

A simple pendulum with length $$L = 1.2 * (m)$$ and mass $$m = 0.4 * (kg)$$ is displaced to an angle

Medium

Dynamics Experiment 9: Free Fall Acceleration Measurements

A student performs an experiment to measure the acceleration due to gravity by dropping various obje

Hard

Dynamics Experiment 10: Air Track and Net Force Measurement

A student uses an air track to investigate the relationship between net force and acceleration. A ha

Medium

Dynamics Experiment 11: Projectile Motion Under Non-Ideal Conditions

A student sets up an experiment to study projectile motion by launching a small ball at various angl

Extreme

Dynamics Experiment 12: Circular Motion and Centripetal Force

A student sets up an experiment to measure the centripetal force by rotating a mass attached to a st

Extreme

Dynamics FRQ #2: Tension in a Pulley System

Two masses are connected by a rope over a frictionless pulley system. Mass $$m_1 = 3.0\,kg$$ hangs o

Medium

Dynamics FRQ #9: Newton's Third Law in Action

Two ice skaters are initially at rest on frictionless ice and push off against each other. Skater A

Medium

Dynamics Investigation: Force, Mass, and Acceleration Experiment

Students conduct an experiment using a dynamic cart where they apply different net forces and measur

Easy

Dynamics of a Multi-Block Pulley System

Two blocks with masses $$m_1 = 4\ \text{kg}$$ and $$m_2 = 6\ \text{kg}$$ are connected by a rope ove

Hard

Dynamics of a Multi-Force System: Tension, Normal, and Friction

A 4 kg block sits on a 20° inclined plane and is attached via a rope to a 2 kg hanging mass over a f

Extreme

Dynamics of a Multi-Stage Rocket Launch

Consider a multi-stage rocket during its ascent. Each stage experiences different forces as mass and

Extreme

Dynamics of a Rolling Object on an Incline

A solid sphere of mass $$m = 0.5 * (kg)$$ and radius $$r = 0.1 * (m)$$ rolls without slipping down a

Hard

Dynamics of Circular Motion

A car with a mass of 1500 kg is navigating a flat, circular curve with a radius of 50 m. The car tra

Hard

Dynamics of Free Fall with Air Resistance

An object is dropped in a medium where air resistance plays a non-negligible role. The following tab

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

Effect of Inclined Plane Angle on Acceleration: Experimental Analysis

In an experiment, a student measures the acceleration of an object sliding down ramps of varying ang

Extreme

Evaluating Dynamic Equilibrium: Forces and Acceleration

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

Easy

FRQ7: Pulley System Dynamics with Tension

In a two-mass pulley system, acceleration measurements were taken for different mass configurations.

Medium

FRQ8: Rolling Cylinder Dynamics on an Inclined Plane

A cylinder rolls down a nearly frictionless inclined plane without slipping. The measured accelerati

Hard

FRQ12: Coefficient of Kinetic Friction Determination

An experiment measures the force required to keep an object moving at constant velocity (thereby equ

Medium

FRQ16: Projectile Motion with Drag Effects

An investigation examines projectile motion for two different objects, A and B, where differences in

Extreme

Gravitational and Inertial Mass Comparison Experiment

A researcher aims to compare gravitational mass and inertial mass using two different experimental s

Medium

Gravitational Forces on Different Planets

Using the gravitational force equation $$F= G*\frac{m_1*m_2}{r^2}$$, analyze how varying planetary m

Extreme

Gravitational vs Inertial Mass: A Conceptual Investigation

A scientist conducts an experiment to compare the gravitational mass and inertial mass of a small me

Easy

Impact of Force Angle on Net Force Magnitude

A student investigates how the angle between two applied forces affects the net force acting on an o

Hard

Impulse and Acceleration Under a Time-Variable Force

A 4.0-kg block is subjected to a variable force over a 6.0-second interval. The force as a function

Hard

Inclined Plane Friction Experiment

A block is released from rest on an inclined plane and slides down while its acceleration is measure

Medium

Inertial Measurements in Rotating Frames

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

Medium

Investigating Air Resistance in Projectile Motion

A projectile launcher is used to fire objects of different shapes. The time of flight and horizontal

Medium

Investigating Frictional Forces on an Inclined Plane

Examine the forces acting on a block sliding down an inclined plane with friction. Explore both the

Medium

Investigating the Influence of Mass on Acceleration

Design an experiment in which you systematically vary the mass of a cart while applying a constant f

Easy

Investigating Variable Forces on an Accelerating Car

A car's acceleration over time was recorded as it navigated varying inclines and declines. A graph o

Extreme

Investigation into the Effects of Applied Force on Acceleration

A cart on an air track is subjected to varying magnitudes of constant force. The resulting accelerat

Easy

Mass Distribution and Acceleration

A cart with an adjustable mass distribution is used to study how the location of added mass affects

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

Newton's Third Law in Ice Skating

Two ice skaters with masses of 50.0 kg and 70.0 kg push off from each other on a frictionless ice su

Easy

Projectile Dynamics with Air Resistance

An experiment is conducted where a projectile is launched at a fixed angle with varying initial spee

Hard

Projectile Motion Dynamics with Air Resistance

A projectile is launched horizontally, and its horizontal displacement is measured at different time

Medium

Rotational Dynamics: Lever Arm and Torque

A lever of length $$L = 2 * m$$ is pivoted at one end. A force $$F = 10 * N$$ is applied perpendicul

Medium

Rotational Dynamics: Moment of Inertia Measurement

Students aim to measure the moment of inertia of a rotating disk by attaching small masses at known

Hard

Tension Forces in a Pulley System

A student examines a simple pulley system with two connected masses. The table below shows the measu

Medium

Tension in a Pulley System

Two masses are connected by a rope passing over a frictionless, massless pulley. One mass is 5 kg an

Medium

Torque and Rotational Equilibrium

A uniform beam with a length of 10 m and a mass of 20 kg is hinged at one end. It is maintained in e

Medium

Transition Between Static and Kinetic Friction

Investigate the transition from static to kinetic friction as an object begins to move.

Medium

Translational and Rotational Dynamics in Rolling Motion

Examine the dynamics of rolling motion by differentiating between translational and rotational compo

Medium
Unit 3: Circular Motion and Gravitation

Analyzing Gravity Measuring Apparatus Data

A student builds a gravity measuring apparatus that relies on timing the free fall of a small ball t

Hard

Analyzing Variations in Centripetal Acceleration with Changing Speed

This problem requires you to examine how centripetal acceleration varies with speed for an object in

Medium

Calculating Gravitational Acceleration on an Unknown Planet

An experiment measures gravitational acceleration $$g$$ at various altitudes above the surface of an

Medium

Centripetal Force and Friction in Car Dynamics

An automobile of mass 1200 kg is rounding a flat curve of radius 80 m at a speed of 15 m/s. The fric

Medium

Centripetal Force in an Amusement Park Ride

A 60 kg rider is on a roller coaster that rounds a circular loop of radius 15 m. At the top of the l

Medium

Circular Motion Experiment Data Analysis

In a physics lab, students conducted an experiment on uniform circular motion and recorded the follo

Medium

Combined Circular and Projectile Motion

A ball is attached to a string and swung in a horizontal circle. At a given instant, the ball is rel

Hard

Comparative Analysis of Gravitational and Centripetal Forces

In a laboratory experiment, a student attempts to compare the gravitational force acting on a suspen

Extreme

Comparative Analysis of Gravitational and Electric Forces

In a laboratory experiment, two identical small spheres each have a mass of $$0.1 \;kg$$ and carry a

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

Conical Pendulum Analysis

A conical pendulum consists of a mass $$m$$ attached to a string of length $$L$$, swinging in a hori

Medium

Designing a Centripetal Force Experiment

You are tasked with designing an experiment to measure how centripetal force depends on both the spe

Hard

Designing a Lab Experiment on Centripetal Force

In this problem, you will outline a laboratory experiment to measure centripetal force.

Medium

Determining the Effects of Radius Change in Uniform Circular Motion

An experiment studies an object moving at a constant speed of 8 m/s while varying the radius of its

Easy

Effect of Changing Charge on Electric Force

In a lab experiment, the magnitude of the charge on two spheres was varied and the resulting force b

Medium

Electric and Gravitational Forces Comparison

Two small spheres, each with a mass of $$0.01$$ kg and carrying a charge of $$1 \times 10^{-6}$$ C,

Hard

Experimental Determination of Gravitational Acceleration

In a free-fall experiment, a student drops an object from various known heights and records the time

Medium

Force Analysis in a Banked Curve

This problem involves analyzing the forces acting on a vehicle negotiating a banked curve, where an

Extreme

Free-Body Diagram and Force Analysis for Circular Motion

A 1 kg mass is whirled on a horizontal table in a circular path by a string attached to a fixed pivo

Easy

Free-Fall Analysis Near a Spherical Body

An object is dropped from rest near the surface of a spherical body with mass $$M$$ and radius $$R$$

Hard

Measuring Gravitational Acceleration

Design an experiment to measure the gravitational acceleration $$g$$ (near 9.81 m/s^2) using free-fa

Medium

Motion in Free Fall: Gravitational Acceleration

An object is dropped from rest near the Earth's surface. Answer the following:

Easy

Radius Change and its Effect on Centripetal Acceleration

A car travels at a constant speed of 20 m/s around a circular track. Answer the following:

Easy

Tension and Acceleration in Circular Motion

A 0.5 kg ball is attached to a string and is swung in a horizontal circle at a constant speed of 4 m

Easy

Tetherball Motion Analysis

A tetherball of mass 0.5 kg is swung in a horizontal circle at a constant speed of 6 m/s using a 2 m

Easy

Theoretical Analysis of a Particle in a Circular Orbit under Electric Force

Consider a particle of mass $$m$$ and charge $$q$$ moving in a circular orbit under the influence of

Extreme

Transition from Circular to Projectile Motion

This problem investigates the transition of motion from uniform circular to projectile motion when t

Easy
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

Analysis of Power Output in Weight Lifting

A study measures human power output by having a subject lift a weight (mass = 50 kg) vertically by 2

Medium

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

Bungee Jump Energy Conservation Analysis

A researcher studies the mechanics of a bungee jump. A jumper with mass $$m = 70 \; kg$$ jumps from

Hard

Comparing Lifting Mechanisms

Two methods are used to lift a 100 kg mass by 5 m. In method 1, the mass is lifted directly with a v

Hard

Comparing Work Done at Varying Force Angles

An object is pulled by a constant force of $$50\;N$$. The force is applied at angles of $$0^{\circ}$

Easy

Conservation of Mechanical Energy on a Frictionless Incline

A $$3\;kg$$ block is released from rest at a height of $$5\;m$$ on a frictionless inclined plane. Us

Medium

Determination of Engine Power in a Towing Experiment

A student sets up an experiment to calculate the power output of an engine towing a sled. The appara

Hard

Determining Power Output in a Weightlifting Scenario

A weightlifter lifts a 100 kg weight vertically upward by 1.2 m in 2 seconds. Answer all parts.

Easy

Effects of Force Direction on Work Calculations

A sled is pulled 15 m by a force of 40 N applied at different angles. Answer the following: (a) Cal

Medium

Energy Dissipation in a Collision

Analyze the experimental data from an inelastic collision that shows changes in kinetic energy befor

Medium

Energy Loss in a Frictional Slide

A sled of mass $$50 kg$$ slides down a snow-covered hill with a slope length of $$15 m$$. The sled s

Medium

Exploring Mechanical Advantage and Energy Transfer in a Compound Pulley System

An experiment uses a compound pulley system to lift a load. The input force and the distance over wh

Medium

Exploring the Effect of Friction on Mechanical Energy Conservation

Design an experiment to investigate how friction affects the conservation of mechanical energy in a

Hard

Exploring the Effects of Applied Angle on Work Done

In this experiment, a student drags a sled across a flat surface while varying the angle at which th

Easy

Exploring the Relationship Between Force, Work, and Time in Athletic Performance

An athlete pushes a sled with a time-varying force given by $$F(t)= 100 - 5 * t$$ (in N) for t from

Extreme

Impact of Friction on an Object in Motion

A small cart is pushed along two different surfaces – one smooth and one rough – and its final speed

Easy

Lifting a Dumbbell at an Angle

A person lifts a 10 kg dumbbell from the floor by applying a force at an angle of 30° above the hori

Easy

Measuring Energy Transfers in a Martian Environment

A researcher simulates the work done by nonconservative forces in a Martian environment. On Mars, th

Extreme

Mechanical Energy Conservation on an Inclined Plane

A skateboarder starts from rest at the top of a frictionless ramp of height $$3.0\,m$$. Using the gr

Medium

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

Torque, Work, and Mechanical Advantage in Using a Wrench

A mechanic uses a 0.4 m long wrench to loosen a bolt. A force is applied at an angle of 60° relative

Medium

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 Friction on an Inclined Plane

A $$4\;kg$$ block slides down an inclined plane that makes an angle of $$30^{\circ}$$ with the horiz

Medium

Work Done by Variable Forces

A variable force is applied to an object as it moves along a straight line. The force as a function

Hard

Work-Energy Theorem in a Kinetic Friction Scenario

A $$2\;kg$$ block slides across a rough surface. It starts with an initial velocity of $$5\;m/s$$ an

Medium
Unit 5: Momentum

Air Track Momentum Experiment

In an air track experiment, two gliders undergo a collision. Glider 1 (mass $$0.50\,kg$$) has an ini

Easy

Analysis of Elastic Collision Using Graph Data

A high-speed camera records the velocities of two objects involved in an elastic collision. The grap

Hard

Basic Momentum Calculation

A 5 kg object is moving to the right with a velocity of 3 m/s. Part (a): Calculate the object's mome

Easy

Coefficient of Restitution and Collision Analysis

In a collision experiment, two objects rebound after impact. Object X (mass = 1 kg) and Object Y (ma

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

Comparing Elastic and Inelastic Collisions

Two objects undergo collisions under different conditions. Experiment 1 features an elastic collisio

Medium

Complex Collision Data Analysis

In an experiment involving three colliding objects, the following table provides measurements of the

Extreme

Critique of Experimental Design in Momentum Measurement

A laboratory experiment is designed to measure the impulse delivered to a ball by a bat. The experim

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 a Controlled Experiment for Elastic Collisions

Design an experiment to investigate the effect of varying mass ratios on the coefficient of restitut

Easy

Failing to Account for Impulse Duration Variability in Dynamic Collisions

In this experiment, a moving cart collides with a spring-loaded mechanism intended to alter its mome

Extreme

Ignoring Elastic Deformation Effects in Impulse Measurements

In this experiment, two blocks collide after being launched by a spring-loaded mechanism, and impuls

Hard

Investigating Momentum Change Using High-speed Cameras

High-speed cameras are used to capture collision events for precise measurement of velocities. Answe

Medium

Molecular Collision Analysis in Gases

Consider a simplified model of a gas where two identical molecules undergo an elastic head-on collis

Hard

Momentum in Explosions

A projectile of mass 1.2 kg is moving horizontally at 20 m/s when it explodes into two fragments. On

Hard

Momentum in Frictional Collisions

A researcher investigates collisions on a rough surface, where friction affects the momentum of slid

Medium

Momentum in Two-Dimensional Collisions

Two pucks collide on a frictionless air table, resulting in two-dimensional motion. Answer the follo

Extreme

Momentum Transfer in Explosive Fragmentation

A stationary object of mass $$10\,kg$$ explodes into three fragments. Fragment 1 (mass $$3\,kg$$) mo

Extreme

Momentum Transfer in Rocket Propulsion

A simplified model of rocket propulsion involves ejecting mass to generate forward momentum in a fri

Extreme

Multi-Stage Collisions Analysis

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

Hard

Neglected Frictional Effects in Momentum Experiment

In this experiment, two carts are set to collide on a track that is assumed to be frictionless. The

Medium

Pendulum and Cart Collision Dynamics

A 2.0 kg pendulum bob is suspended and released from rest so that at its lowest point it collides wi

Hard

Sequential Collisions in a Billiards Setup

On a billiards table, a moving cue ball collides with a stationary ball, which in turn collides with

Medium

Sports Collision: Soccer Heading Impact

A soccer ball with mass $$0.43 \ kg$$ is moving at $$15 \ m/s$$ toward a player's head. Upon impact,

Easy

Two-Dimensional Collision Analysis

On a nearly frictionless air hockey table, two pucks (mass = 0.2 kg each) collide elastically. Puck

Hard
Unit 6: Simple Harmonic Motion

Amplitude Dependency and Maximum Acceleration in SHM

In SHM, the acceleration is given by $$a(t) = -A*\omega^2 \cos(\omega*t + \phi)$$. (a) Explain mat

Easy

Analysis of the Effects of Gravity on Pendulum SHM

A pendulum’s period is influenced by the gravitational acceleration in its environment.

Easy

Analyzing Force vs. Displacement Graph in a Spring System

A force vs. displacement graph was generated for a spring system. Analyze the graph to determine if

Easy

Analyzing SHM Data to Determine Angular Frequency

A researcher collects data on the oscillation period for a mass-spring system with different masses

Hard

Beat Frequency in Coupled Oscillators

Two mass-spring oscillators, having slightly different angular frequencies, are coupled so that thei

Extreme

Comparative Analysis of Mass-Spring and Pendulum Systems

Compare the oscillatory behavior of a mass-spring system and a simple pendulum. (a) Write down the

Medium

Comparative Analysis of Pendulum and Mass-Spring Systems

A pendulum and a mass-spring oscillator are two systems that exhibit simple harmonic motion. Conside

Hard

Critical Evaluation of an SHM Experiment

Critically evaluate an experiment that claims the period of a mass-spring oscillator is independent

Medium

Determining the Impact of Air Resistance on Amplitude Decay in SHM

An experiment records the amplitude of a damped oscillator over successive cycles in the presence of

Medium

Energy Partition in SHM

In a mass-spring system undergoing SHM, the kinetic energy $$K$$ and potential energy $$U$$ change a

Medium

Energy Transformation in a Mass-Spring System

In a mass-spring system, the total mechanical energy is given by $$E = \frac{1}{2} k A^2$$, while th

Medium

Energy Transformation in SHM

In a mass-spring system undergoing SHM, the total mechanical energy is conserved and is partitioned

Medium

Error in Relating Frequency to Energy in SHM

A student investigates the relationship between frequency and total mechanical energy in a mass-spri

Hard

Impact of Mass Variation on Oscillation Period

Analyze how varying the mass in a mass-spring oscillator affects the period of oscillation.

Easy

Investigating the Relationship between Frequency and Energy in SHM

Analyze the relationship between the frequency of oscillation and the energy in a mass-spring system

Medium

Investigating the Role of Mass in SHM

Explore how varying the mass attached to a spring affects the dynamics of SHM, specifically focusing

Medium

Mass-Spring SHM Analysis

A mass-spring system undergoes simple harmonic motion. Analyze the motion by deriving the relationsh

Medium

Mathematical Derivation in SHM

Derive the second-order differential equation governing the motion of a mass-spring system in SHM. A

Hard

Modeling and Simulating SHM in a Laboratory Setting

A computational simulation is developed to model a mass-spring system undergoing simple harmonic mot

Extreme

Non-linear Effects in Large Amplitude Oscillations

For a mass-spring system, the period is independent of amplitude only for small oscillations. At lar

Extreme

Phase Angle Influence in SHM

A set of experiments measured the initial displacement of an oscillator at time t = 0 for different

Medium

Resonance and Forced Oscillations in a Mass-Spring System

An experiment is conducted in which an external periodic force is applied to a mass-spring system ov

Extreme

SHM Fundamentals and Equations

Consider the standard equation for the displacement of an object in simple harmonic motion (SHM): $$

Easy

Simple Harmonic Motion in Biological Systems

Biological systems, such as the rhythmic beating of a heart or neuron firing patterns, sometimes exh

Extreme

Spring Constant Variation and Oscillation Frequency

Examine how variations in the spring constant affect the oscillation frequency of a mass-spring syst

Medium
Unit 7: Torque and Rotational Motion

Amusement Park Ride Safety Check

An amusement park ride features a long rotating arm 10 m in length with a seat at the end. The ride

Hard

Analyzing Torque and the Right-Hand Rule

A force is applied to a lever arm at a certain angle relative to the position vector from the pivot.

Medium

Angular Displacement and Arc Length Relationships

Examine the relationship between angular displacement and the arc length traversed by an object movi

Easy

Angular Displacement Calculation from Non-Uniform Acceleration

A rotating object has an angular acceleration that varies with time according to the function $$\alp

Medium

Angular Kinematics Basics

This question examines fundamental concepts in angular kinematics. Use the provided formulas to comp

Easy

Angular Momentum Conservation and Collisions

This problem explores conservation of angular momentum during a collision on a rotating platform.

Extreme

Calculating Moment of Inertia for Composite Systems

In this problem, you will determine the moment of inertia for a composite object and analyze how rep

Hard

Calculating the Center of Mass of a System

Consider a system of three objects with the properties indicated in the table. Compute the center of

Medium

Center of Mass in a Composite Rotating System

This problem integrates the concept of the center of mass in a system with rotating components. Dete

Medium

Combined Translation and Rotation: A Rolling Ball

A solid sphere of mass $$3 \;kg$$ and radius $$0.2 \;m$$ rolls without slipping down a 30° incline.

Extreme

Comparative Analysis of Angular Sensors and Linear Measurement Systems

A researcher is evaluating two sensor types for measuring rotational motion in an industrial machine

Extreme

Cylindrical Rod Angular Acceleration Experiment Error

A student conducts an experiment to measure the angular acceleration of a cylindrical rod pivoted at

Easy

Determining Angular Acceleration in Non-Uniform Circular Motion

A rotating system exhibits non-uniform circular motion. Analyze the provided graph to determine both

Extreme

Effect of Friction on Rotational Deceleration

A flywheel initially rotates at $$20 rad/s$$ and experiences a constant angular deceleration of $$0.

Easy

Exploring Gyroscopic Precession

Design an experiment to investigate gyroscopic precession by applying a known torque to a spinning g

Extreme

Graph Analysis of Angular Displacement

Consider the attached graph of angular displacement versus time for a rotating object. (a) Determine

Medium

Graphical Analysis of Angular Velocity vs. Time

A graph of angular velocity (\(\omega\)) versus time for a rotating disc is provided. Analyze the ro

Medium

Integrated Analysis of Torque, Moment of Inertia, and Energy in a Rotational System

A researcher is investigating a rotating platform used in a robotics application. The platform has a

Medium

Investigating Rotational Kinetic Energy vs. Linear Kinetic Energy

A researcher is comparing the rotational kinetic energy of a spinning wheel to the linear kinetic en

Medium

Mass Distribution and Angular Acceleration

Design an experiment to examine how the distribution of mass affects the angular acceleration of a r

Hard

Physical Pendulum Analysis

A uniform rod of length $$2 m$$ and mass $$5 kg$$ is used as a physical pendulum pivoted at one end.

Medium

Relative Angular Motion of Intermeshing Gears

Two gears are meshed together. Gear A (radius = 0.1 m) rotates at $$8 \text{ rad/s}$$. (a) Derive th

Hard

Rotating Chair Angular Momentum Transfer Experiment Error

A student simulates a figure skater's rotation on a rotating chair by measuring angular speed before

Hard

Rotational Collision: Turntable and Clay Ball

A turntable with a moment of inertia $$3.0 kg·m^2$$ rotates at $$5 rad/s$$. A clay ball of mass $$2

Hard

Rotational Dynamics in Robotic Arm Design

A robotic arm has two segments modeled as thin rods, each pivoting at a joint. The segments experien

Hard

Rotational Kinematics Data Analysis

An experiment records the angular displacement of a rotating disc at different times as shown in the

Medium

Rotational Motion Laboratory Experiment

In a laboratory experiment, a rotating disk’s angular displacement is recorded over time as shown in

Medium

Rotational Motion with Variable Angular Acceleration

A rotating object has an angular acceleration given by $$\alpha(t) = 0.2 * t \text{ rad/s}^2$$, with

Medium

Spinning Bicycle Wheel Damping Experiment Error

A student investigates the deceleration of a spinning bicycle wheel by measuring its angular velocit

Medium

Torque and Moment of Inertia in Rotational Motion

A thin rod of length $$L$$ and mass $$m$$ is pivoted about one end. An experiment claims that its mo

Medium

Torque and Rotational Equilibrium in a Seesaw

Two children are sitting on a seesaw. Child A (30 kg) is 1.2 m from the pivot, and Child B (40 kg) i

Easy

Trusted by millions

Everyone is relying on Knowt, and we never let them down.

3M +Student & teacher users
5M +Study notes created
10M + Flashcards sets created
Victoria Buendia-Serrano
Victoria Buendia-SerranoCollege freshman
Knowt’s quiz and spaced repetition features have been a lifesaver. I’m going to Columbia now and studying with Knowt helped me get there!
Val
ValCollege sophomore
Knowt has been a lifesaver! The learn features in flashcards let me find time and make studying a little more digestible.
Sam Loos
Sam Loos12th grade
I used Knowt to study for my APUSH midterm and it saved my butt! The import from Quizlet feature helped a ton too. Slayed that test with an A!! 😻😻😻

Need to review before working on AP Physics 1: Algebra-Based FRQs?

We have over 5 million resources across various exams, and subjects to refer to at any point.

Browse top AP materials

We’ve found the best flashcards & notes on Knowt.

Tips from Former AP Students

FAQWe thought you might have some questions...
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.