AP Physics 1: Algebra-Based FRQ Room

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AP Physics 1: Algebra-Based Free Response Questions

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  • Unit 1: Kinematics (69)
  • Unit 2: Dynamics (56)
  • Unit 3: Circular Motion and Gravitation (27)
  • Unit 4: Energy (29)
  • Unit 5: Momentum (34)
  • Unit 6: Simple Harmonic Motion (18)
  • Unit 7: Torque and Rotational Motion (17)
Unit 1: Kinematics

Acceleration and Deceleration in Sprinting

A sprinter accelerates uniformly from rest to a maximum speed of 8 m/s in 4 s, maintains that speed

Medium

Analysis of a Velocity-Time Graph

Examine a velocity vs time graph of an object to analyze its motion characteristics.

Easy

Analysis of Angled Motion

A projectile is launched with horizontal and vertical velocity components of $$15$$ m/s and $$20$$ m

Hard

Analysis of Experimental Uncertainty in Kinematics

An experiment calculates acceleration by measuring initial and final velocities and time in several

Hard

Analysis of Falling Object with Air Resistance

A researcher drops two objects of different shapes from a height to study the effect of air resistan

Hard

Analyzing Motion Graphs: Slope and Intercept

A researcher collects both a Position vs. Time graph and a Velocity vs. Time graph for an object in

Easy

Analyzing the Relationship Between Angle of Projection and Range in Projectile Motion

Design an experiment to determine how the angle of projection affects the range of a projectile. You

Easy

Angle of Projection Variation in Projectile Motion

In a controlled experiment, projectiles are launched with a fixed initial speed at various angles. T

Medium

Angles and Vectors: Airplane Navigation

An airplane flies 400 km due north and then 300 km due east. Answer the following:

Medium

Average Speed Calculation Using Motion Sensor Data

Using the experimental data collected from a motion sensor, analyze the object's movement with regar

Easy

Calculating Acceleration with Changing Motion

A particle moves along a straight line with its velocity given by the function $$v(t) = 3 * t - 0.5

Hard

Calculating Displacement from a Velocity-Time Graph

A velocity vs. time graph is provided for an object with a linearly decreasing velocity given by $$v

Medium

Circular Track Analysis: Distance vs. Displacement

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

Easy

Comparing Speed and Velocity in a Track Experiment

In this field experiment, runners’ motions on a curved track are recorded using GPS sensors. The pro

Medium

Comparing Vector and Scalar Quantities

Design an experiment to demonstrate the difference between vector and scalar quantities using motion

Medium

Critical Evaluation: Misinterpretation of Speed vs. Velocity

A popular online article claims that because speed and velocity share the same units (m/s), they con

Hard

Curved Track Motion Analysis

A toy car moves along a curved track designed with varying slopes, resulting in non-uniform accelera

Extreme

Decomposing Projectile Motion into Components

A projectile is launched at an angle from the horizontal.

Medium

Deriving and Comparing Kinematic Equations

An object’s position as a function of time is given by $$x(t) = 5*t^2 - 3*t + 2$$. Answer the follow

Extreme

Dimensional Analysis and Equation Derivation

Consider the displacement equation $$s = ut + \frac{1}{2}at^2$$. Answer the following parts.

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

Effect of Reduced Gravity on Projectile Motion

Consider a projectile launched on a celestial body where the gravitational acceleration is $$g = 1.6

Hard

Elevator Motion Analysis

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

Easy

Energy Considerations in Projectile Motion

A projectile of mass 0.5 kg is launched with an initial speed of $$18\ m/s$$ at an angle of $$45^\ci

Hard

Evaluating Motion on Inclined Planes

A cart is released to slide down an inclined plane with an angle of $$\theta = 30^\circ$$. Theoretic

Medium

Experimental Design: Projectile Range Determination

Design an experiment to measure the range of a projectile.

Medium

Exploring Non-Uniform Acceleration Through Variable Force Application

Some systems experience non-uniform acceleration when variable forces are applied. Design an experim

Hard

Free Fall and Impact Speed

An object is dropped from a height of 80 m from rest.

Extreme

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 Investigation: Data Consistency with Theoretical Model

A student performs a free-fall experiment and records the following data: | Height (m) | Fall Time

Hard

Free-Fall from a Building

A ball is dropped from the top of a 45-meter-tall building (assume negligible air resistance). Answe

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 a Parabolic Trajectory

A video analysis of a projectile's motion results in a graph that shows a parabolic trajectory. Anal

Hard

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

Interpreting a Runner’s Position vs. Time Graph

A runner’s position over time is tracked and represented by a piecewise graph that includes segments

Easy

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

Manual Timing Reaction Error

A student measures the time of flight of a projectile using a manual stopwatch. The procedure requir

Easy

Momentum and Force in Collisions Experiment

In a collision experiment on an air track, a moving cart collides with a stationary block. A force s

Hard

Motion Analysis in Air and Underwater

A ball is thrown in air and underwater, and its displacement and time of travel are measured. The fo

Medium

Motion on an Inclined Plane

A 5-kg object slides down a frictionless inclined plane.

Extreme

Motion on an Inclined Plane with Friction Consideration

A block is released from rest on a 30° inclined plane with friction. It is observed that the block t

Medium

Multi-Stage Motion Analysis

A vehicle undergoes three stages of motion: (1) accelerates uniformly from rest at 2 m/s² for 5 s, (

Hard

Non-Uniform Acceleration Investigation

A velocity vs. time graph for an object is provided where the graph is curved (non-linear). Answer t

Hard

Oscillatory Motion of a Mass on a Spring

A mass on a spring oscillates horizontally on a frictionless surface with a position function given

Medium

Position vs Time Graph Analysis

A position vs time graph for an object is provided. Analyze the graph to identify periods of constan

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 Launch Experiment with Misapplied Gravity Components

In this projectile motion experiment, a student uses a spring-loaded cannon to launch a ball at an a

Hard

Projectile Motion with Angled Launch

A ball is launched with an initial speed $$v_{0} = 20 m/s$$ at an angle $$\theta = 30^\circ$$ with r

Medium

Projectile Motion with Elevated Launch

A ball is launched from a platform 10 m high with an initial speed of 15 m/s at an angle of 40° abov

Hard

Projectile Motion with Varying Launch Angle

A projectile is launched with an initial speed of \(v_0 = 25\,m/s\) at varying angles. Consider two

Extreme

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

Relative Motion: Moving Walkway Problem

A person walks on a moving walkway at a speed of 1.5 m/s relative to the walkway. The walkway moves

Medium

Runner's Motion Analysis

A runner covers an irregular path during a cross-country race. A position vs. time graph of the runn

Easy

Sailing Navigation: Vector Analysis of Course and Wind

A sailing experiment provided data on the boat's intended course, its actual course, and the wind co

Hard

Speed vs Velocity Experimental Design

A student aims to compare speed and velocity by monitoring a skateboarder's motion along a rectangul

Medium

Speed vs. Velocity Analysis from Motion Data

An object moves along a curving path with a varying speed. Answer the following parts:

Medium

Speed vs. Velocity Concepts

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

Easy

Speed vs. Velocity Measurement Error

A student uses a photogate sensor to measure the speed of a cart moving along a straight track. The

Medium

Time of Flight and Range in Angled Motion

A soccer ball is kicked from ground level with an initial speed of $$18\ m/s$$ at an angle of $$50^\

Medium

Time-Dependent Acceleration Analysis

A car's acceleration is given by the function $$a(t)=3-0.5*t$$ for $$0 \leq t \leq 6 \; s$$. Analyze

Medium

Track Runner Analysis

A runner follows a track with multiple segments as shown in the table below. Use the data to determi

Medium

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

Uniform Deceleration Analysis

A car decelerates uniformly from an initial velocity of $$30 \;m/s$$ to rest (0 m/s) over a time int

Medium

Uniformly Accelerated Motion in a Car

A car accelerates uniformly from a complete stop with an acceleration of $$2 \; m/s^2$$. Answer the

Medium

Uniformly Accelerated Motion Investigation

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

Hard

Uniformly Accelerated Motion: Big Five Equations

A car accelerates uniformly from rest to a speed of 30 m/s over a period of 10 seconds. Use the stan

Medium

Uniformly Accelerated Motion: Car Acceleration

A car starts from rest and accelerates uniformly. The following table shows the car's velocity measu

Easy

Verification of the Equation $$v = u + a*t$$

Design an experiment using a motion sensor on an inclined plane to verify the linear relationship de

Easy
Unit 2: Dynamics

Analysis of Tension Forces in a Pulley System

A mass-pulley system is set up with two masses connected over a frictionless pulley. The acceleratio

Medium

Analyzing Motion on an Inclined Plane

A block is released from rest on an inclined plane, and its acceleration is recorded for different a

Medium

Centripetal Force Measurement Using a Rotating Bucket

In this experiment, students fill a bucket with water and swing it in a circular path to measure the

Medium

Characterizing Friction on a Sloped Surface

An experiment measured the acceleration of blocks sliding down inclined planes with different coeffi

Medium

Circular Motion and Centripetal Force

A small mass of 0.2 kg is attached to a string and rotated in a horizontal circle of radius 0.5 m at

Easy

Collision Dynamics and Action-Reaction Forces

Two objects, one of mass $$2 ~kg$$ and the other $$3 ~kg$$, collide elastically on a frictionless su

Medium

Comparative Analysis of Gravitational and Inertial Mass

An experiment is conducted to compare an object's gravitational mass with its inertial mass. In one

Hard

Comparing Gravitational and Inertial Mass using a Pendulum Experiment

A researcher is using a pendulum to explore the concepts of gravitational mass and inertial mass. Th

Medium

Comparing Inertial and Gravitational Mass

In a lab experiment, students aim to compare inertial and gravitational mass. Measurements are taken

Easy

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

Determining Net Force on an Object on a Rough Incline

An object of mass $$5\,\text{kg}$$ rests on a rough incline. A researcher analyzes the forces acting

Easy

Dynamic Analysis of an Incline with Multiple Forces

A researcher examines the motion of a block on an inclined plane that is subject to gravity, frictio

Medium

Dynamic Equilibrium on a Rotating Platform

A person stands on a rotating platform and remains stationary relative to it. The person is located

Hard

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 18: Fuel Ejection Effects on Spacecraft Acceleration

A student simulates rocket propulsion by attaching small masses (representing fuel) to a trolley and

Extreme

Dynamics Experiment 19: Skater Motion on a Tilted Surface

A student analyzes the dynamics of a skater gliding on a tilted surface using motion sensors to meas

Extreme

Dynamics Experiment: Analyzing Net Force on an Accelerating Elevator

An elevator is accelerated upward by a motor and its acceleration is measured. The net force acting

Hard

Dynamics FRQ #4: Dynamics of a Vertical Elevator

An elevator with a mass of 1000 kg accelerates upward at 1.5 m/s².

Medium

Dynamics FRQ #13: Frictional Force on an Inclined Plane

A block of mass 8.0 kg rests on a 40° inclined plane and is on the verge of sliding.

Medium

Dynamics in a Two-Dimensional Force System

A 5 kg block is subjected to two forces: Force A of 20 N at 30° above the horizontal and Force B of

Extreme

Dynamics in Circular Motion: Banked Curve

A vehicle negotiates a banked curve without any friction. Analyze the forces acting on the vehicle.

Hard

Dynamics of a Cart on a Frictional Track

In a laboratory experiment, a researcher uses a cart moving on a horizontal track to study the relat

Medium

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 Rotating System: Loop-the-Loop Analysis

In a loop-the-loop experiment, a small object of mass 0.5 kg moves through loops of different radii.

Extreme

Dynamics of a Spring-Loaded Cart

Design an experiment where a spring-loaded cart is launched by a compressed spring. The objective is

Hard

Dynamics of Colliding Objects on a Frictionless Track

In a collision experiment, two objects on a frictionless track collide and stick together. The table

Medium

Dynamics of Linked Blocks on a Frictional Surface

Two blocks, A and B, with masses 3 kg and 5 kg respectively, are connected by a light rope and pulle

Medium

Dynamics Problem 13: Experimental Acceleration Analysis

A student conducted an experiment to study the relation between applied force and acceleration on a

Medium

Dynamics with Air Resistance Approximation

An object of mass 4 kg is dropped and experiences air resistance acting upward with a constant force

Easy

Effect of Variable Mass on Acceleration

A moving cart is subjected to a constant applied force, but additional mass is being added to the ca

Medium

Experiment: Measuring Coefficient of Kinetic Friction

In a laboratory experiment, a 2.0 kg wooden block is pulled along a horizontal table by a constant f

Medium

Exploring Air Drag and Its Effect on Free Fall

Design an experiment to measure the effect of air drag on the acceleration of objects in free fall.

Medium

Exploring Frictional Forces on an Inclined Plane

In a controlled experiment, a block is released on an inclined plane and its acceleration is measure

Medium

Free-Body Diagram Analysis for Equilibrium

A student constructs free-body diagrams for an object suspended by two cables at different angles, d

Easy

Gravitational Mass vs. Inertial Mass Experiment

Students designed an experiment to compare gravitational mass and inertial mass using separate proce

Hard

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

Impulse and Momentum in Collisions

Two carts collide on a frictionless track. Cart A (mass $$m_A = 2 * kg$$) is moving at $$3 * m/s$$,

Hard

Inertia and Equilibrium Analysis

Examine how Newton's First Law explains the state of motion of an object. Consider a scenario where

Easy

Inertia in Motion

This question explores Newton's First Law and the concept of inertia. A 0.50 kg hockey puck slides o

Easy

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 Reaction Forces on an Accelerating Elevator

An elevator with a mass of 600 kg accelerates upward at 2 m/s². Investigate the forces acting on the

Medium

Investigating the Equivalence of Gravitational and Inertial Mass

Design an experiment to compare measurements of gravitational mass and inertial mass, thereby testin

Hard

Mass Distribution and Acceleration

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

Hard

Measuring Gravity with a Simple Pendulum

Design an experiment using a simple pendulum to measure the acceleration due to gravity and analyze

Easy

Newton's Third Law in Rebounding Collisions

A ball is dropped from a height and rebounds off a rigid surface.

Easy

Pendulum Dynamics in a Non-Inertial Frame: A Moving Train Study

A researcher claims that observations of a pendulum inside a moving train (a non-inertial reference

Medium

Pendulum Experiment for Gravitational Acceleration

A student sets up a pendulum with a long string and heavy bob to measure the gravitational accelerat

Medium

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 and Force Analysis Experiment

Students launch a projectile using a catapult and attach a force sensor to record the initial force

Extreme

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

Rocket Propulsion and Dynamics

A researcher studies the dynamics of a small model rocket during its vertical ascent. The investigat

Hard

Rotational Dynamics in a Spinning Disc

A student studies the rotational dynamics of a spinning disc by measuring its angular acceleration u

Medium

Rotational Dynamics on a Pivot

A student investigates rotational dynamics by applying a tangential force at the edge of a rotating

Extreme

Studying the Impact of Incline Angle on Static Equilibrium

A block is placed on an adjustable inclined plane. The angle of the plane is gradually increased unt

Easy

Tension Forces in a Pulley System

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

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
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 Tension Forces in a Swinging Bucket

A bucket attached to a rope is swung in a vertical circle. The tension in the rope varies at differe

Medium

Angular to Linear Kinematics in Circular Motion

A point on a rotating disk moves in a circle of radius $$r$$ at a constant angular speed $$\omega$$.

Easy

Centripetal Force in Amusement Park Ride

An engineering team analyzes ride safety by measuring forces acting on riders during a circular moti

Easy

Centripetal Force with Variable Speed

A rotating platform has a mass attached that experiences different speeds over time. Initially, at t

Hard

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 Methodologies: Damped Pendulum versus Free Fall for g Measurement

Design two experimental procedures—one using a damped pendulum and one using free fall—to measure th

Hard

Designing a Free-Fall Experiment

A student aims to measure the gravitational acceleration (g) using a free-fall experiment with a mot

Easy

Dynamic Equilibrium Under Gravitational and Buoyant Forces

An object is floating in a fluid where the upward buoyant force equals its weight, thereby achieving

Easy

Effects of Air Resistance on Circular Motion

An object in uniform circular motion experiences air resistance which gradually slows it down. Answe

Medium

Effects of Angular Speed on Apparent Weight in a Rotating System

In a rotating space station designed to simulate gravity, the apparent weight felt by occupants resu

Hard

Electric Force in a Circular Particle Accelerator

In a circular particle accelerator, charged particles are forced into a circular path by an electric

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

Experimental Determination of Gravitational Acceleration

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

Medium

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-Body Diagram for Circular Motion in a Loop-the-Loop

A roller coaster car of mass 500 kg navigates a loop-the-loop with a radius of 12 m. Answer the foll

Easy

Graph Analysis of Uniform Circular Motion

In an experiment, the centripetal acceleration of a rotating object was measured at various speeds.

Medium

Gravitational Acceleration across Different Celestial Bodies

Consider two planets with the following data provided in the table. Answer the following:

Medium

Impact of Speed Variation on Centripetal Acceleration

An object moving in a circular path experiences centripetal acceleration given by $$a_c = \frac{v^2}

Hard

Investigating Gravitational Acceleration at Different Altitudes

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

Medium

Momentum and Circular Motion

An object in circular motion experiences steady forces that maintain its path, while an external imp

Medium

Orbital Period Analysis of a Moon

A small moon orbits a planet in a nearly circular orbit. The gravitational force provides the centri

Extreme

Pendulum Gravitational Acceleration Measurement

A student sets up an experiment using a simple pendulum to measure the gravitational acceleration, g

Medium

Planetary Orbital Period Comparison

Consider two planets orbiting the same star. Using Newton’s law of universal gravitation and circula

Hard

Planetary Surface Gravity Comparison

Gravitational acceleration at the surface of a planet is given by $$g = \frac{G M}{r^2}$$. Consider

Easy

Predicting Motion Changes: Variation in Radius

An object moves in a circular path at constant speed. Consider the effect of changing the radius on

Medium

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
Unit 4: Energy

Comparative Analysis of Work in Different Force Directions

A researcher pushes two identical boxes under different conditions. In Case A, the force is applied

Easy

Comprehensive Analysis of a Rube Goldberg Machine

A Rube Goldberg machine is designed to complete a simple task through a series of energy transfer st

Extreme

Determining Frictional Work on a Block on an Incline

Develop an experiment to quantify the work done by friction on a block sliding down an inclined plan

Medium

Determining Maximum Height from Kinetic Energy

A projectile of mass 2 kg is launched vertically upward with an initial speed of 20 m/s. Answer all

Easy

Determining Work of Friction in a Sled on Snow

A 15 kg sled is sliding on snow with a coefficient of kinetic friction of 0.1. The sled slows from 4

Medium

Effect of Angle Variation on Efficiency and Power Output

Examine the experimental data showing how the angle of applied force influences measured work, calcu

Extreme

Energy Conservation in a Roller Coaster

A roller coaster car of mass $$500\;kg$$ is released from rest at the top of a hill of height $$20\;

Medium

Energy Dissipation in a Collision

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

Medium

Evaluating Power in an Electrical Motor

An electrical motor lifts a 75 kg elevator vertically 10 m in 20 seconds with an efficiency of 90%.

Medium

Evaluating the Role of Angle, Friction, and Distance in Work Calculations

Propose an experiment to evaluate how the angle of an applied force, friction, and the displacement

Medium

Force at an Angle: Lifting a Load

A construction worker lifts a heavy load using a rope that makes an angle of $$30^{\circ}$$ with the

Easy

Frictional Work Calculation in a Box-Pulling Experiment

In this experiment, a student investigates the work done by friction on a box sliding across a horiz

Medium

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

Lifting Power Analysis in Weightlifting

In a weightlifting competition, three athletes performed lifts with the following data: | Athlete |

Hard

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 in a Roller Coaster Experiment

This question involves analyzing experimental data from a roller coaster where changes in height and

Medium

Non-Conservation of Mechanical Energy due to Air Resistance

Review the experimental data showing loss in total mechanical energy due to air resistance. Analyze

Medium

Non-constant Force: Pulling a Sled on Snow

A sled of mass $$20\,kg$$ is pulled across a flat, snowy surface by a rope that exerts a variable fo

Extreme

Nonconservative Forces in a Skater's Motion

A 60 kg skater is observed decelerating from 8 m/s to 4 m/s over a distance of 20 m on a rough ice s

Hard

Pendulum Energy Transformation

A simple pendulum with a 2 m long string and a 2 kg bob is released from a 30° angle from the vertic

Medium

Power of a Sprint Runner

A 70 kg sprinter runs 100 m in 10 s starting from rest, under the assumption of uniform acceleration

Medium

Power Output in a Weight Lifting Competition

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

Easy

Relating Electrical and Mechanical Power in a Conveyor Belt System

An electric motor supplies an electrical power output of $$750 W$$ to a conveyor belt system and ope

Medium

Rolling Motion and Energy Distribution

A solid cylinder (mass = 4 kg, radius = 0.2 m) rolls without slipping down an incline of height 5 m.

Hard

Work at an Angle

A researcher is analyzing the work performed when a constant force is applied at an angle to the hor

Easy

Work Done Against Friction on a Sliding Block

A block slides on a rough horizontal surface and comes to a stop due to friction. The work done by f

Medium

Work Measurement in a Rotational Motion Experiment

A student investigates the work done during the rotation of a turntable by attaching a force meter t

Hard

Work-Energy Analysis in a Collision Event

A researcher studies a head-on inelastic collision on a frictionless track. Cart A (2 kg) is moving

Medium

Work-Energy Theorem on an Inclined Plane

A 3 kg block is released from rest on a 15° inclined plane that is 5 m long. Upon reaching the botto

Medium
Unit 5: Momentum

2D Momentum Conservation Analysis

In a two-dimensional collision, two objects exhibit the following velocities (in m/s) before and aft

Extreme

Air Track Momentum Experiment

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

Easy

Analyzing Impulse in a Bat-and-Ball Collision

In a baseball collision experiment, the following data were recorded: the ball has a mass of 0.145 k

Medium

Analyzing Lab Collision Data

In a series of collision experiments using gliders on an air track, the following data were recorded

Medium

Assumption of Uniform Mass Distribution in a Pendulum Collision

In this experiment, a pendulum bob is released from a fixed height to collide with a stationary targ

Medium

Ballistic Pendulum Analysis

A 0.2 kg bullet is fired horizontally into a 2 kg wooden block suspended as a pendulum. The bullet b

Hard

Billiards Ball Collision Analysis

In a game of billiards, ball A (mass $$0.2 \ kg$$) moves with a speed of $$2 \ m/s$$ and collides he

Easy

Collision with Energy Absorption via Spring Mechanism

A 3 kg block moving at $$10\,\text{m/s}$$ collides with a spring attached to a wall. The block compr

Medium

Comparative Impulse Analysis

Two collision scenarios are conducted in a laboratory: Scenario A: A constant average force of 2000

Easy

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

Designing a Lab Experiment to Measure Impulse

You are tasked with designing an experiment to measure the impulse delivered to a cart during a coll

Medium

Determining the Coefficient of Restitution

A ball of mass $$0.5 \ kg$$ is thrown against a wall with a speed of $$10 \ m/s$$. After rebounding

Easy

Diver's Momentum and Water Impact

A diver with a mass of $$70 \ kg$$ jumps off a diving board with a horizontal component of velocity

Easy

Elastic Collision Analysis

On a frictionless horizontal surface, Object A (mass = 1.5 kg) with an initial velocity of 4 m/s col

Hard

Elastic Collision Analysis

A 2 kg object (A) moving at 4 m/s collides elastically with a 3 kg object (B) moving at –1 m/s. Use

Hard

Erroneous Application of Momentum Conservation in Explosive Separations

In this experiment, an object is exploded into two fragments by a small charge, and the velocities o

Hard

Explosive Fragmentation and Momentum Conservation

A stationary projectile of mass $$12\,\text{kg}$$ explodes into three fragments. Fragment 1 has a ma

Hard

Explosive Separation: Momentum Analysis

A stationary object with a mass of 50 kg explodes into two pieces. Experimental data shows that Piec

Hard

Ignoring Elastic Deformation Effects in Impulse Measurements

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

Hard

Impulse and its Graphical Representation

A force versus time graph with both positive and negative force regions is provided. Analyze the gra

Hard

Impulse Applied to Varying Masses

In a physics lab, a constant impulse of $$10$$ Ns is applied separately to two objects of different

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

Misinterpretation of Force-Time Graph in Impulse Determination

In this experiment, students used a force sensor to record data during an object’s collision and plo

Medium

Momentum Change Due to Friction

A 5.0 kg block is sliding on a horizontal surface and comes to rest due to kinetic friction over a p

Medium

Momentum Change in a Two-Collision Experiment

In a laboratory collision experiment on a low-friction track, two carts undergo sequential collision

Hard

Momentum in Collisions Experiment

In a lab, two carts on an air track collide. The experiment aims to verify the conservation of momen

Medium

Momentum in Rotational Collisions

A uniform rod of length $$L = 2$$ m and mass $$M = 4$$ kg is pivoted at one end and is initially at

Hard

Momentum in Two-Dimensional Collisions

Two objects collide in a two-dimensional setting. Object A (mass = 2 kg) moves east at 6 m/s, and Ob

Hard

Momentum Measurement Error in Cart Collision Experiment

In this experiment, students attempted to measure the momentum of a cart on a frictionless track. Th

Easy

Momentum Transfer in Explosions

An object at rest explodes into two fragments. Fragment A has a mass of $$2 \ kg$$ and moves with a

Easy

Momentum Transfer in Rocket Propulsion

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

Extreme

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

Rotational Momentum Conservation in Collisions

A disk of mass 5 kg and radius 0.5 m rotates with an initial angular velocity of 10 rad/s about its

Hard

Scaling of Momentum with Velocity

An object's momentum is directly proportional to its velocity. Explore the effects of changes in vel

Easy
Unit 6: Simple Harmonic Motion

Amplitude and Phase Evolution in a Coupled Oscillator System

Two masses, each of mass $$m$$, are connected by identical springs with spring constant $$k$$ and ar

Extreme

Calculation Error in Determining Angular Frequency

A student sets up an experiment to measure the angular frequency (ω) of a mass-spring oscillator by

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

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

Energy Conversion in SHM

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

Medium

Experimental Design for Measuring Angular Frequency in SHM

A researcher aims to measure the angular frequency $$\omega$$ of a mass-spring system. (a) Outline

Easy

Exploring Non-Ideal Behaviors in SHM

In an experiment using a mass-spring system, deviations from ideal SHM are observed, including gradu

Hard

Force Analysis in SHM: Vector Representation

The restoring force in SHM is given by Hooke’s Law: $$F = -k*x$$. (a) Explain the significance of t

Easy

Impulse and SHM Initiation

Investigate how a sudden impulse initiates simple harmonic motion in a mass-spring system.

Medium

Interpreting and Correcting a Faulty SHM Diagram

An experimental setup diagram for a mass-spring system in SHM is provided. The diagram attempts to i

Hard

Investigating Hooke's Law

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

Easy

Misinterpretation of Velocity Data in SHM Experiment

In an experiment aimed at verifying the velocity function in SHM, a student records the displacement

Medium

Pendulum Motion and Approximations

Consider a pendulum used in a clock, for which the period is given by $$T = 2\pi \sqrt{L/g}$$. This

Medium

Pendulum Period Calculation

A simple pendulum in a clock tower has a length L = 2.5 m. Answer the following: (a) Derive the expr

Medium

Phase Difference in SHM

In SHM, displacement, velocity, and acceleration are sinusoidal functions of time with specific phas

Easy

Real-World Applications of SHM

An engineering suspension system can be modeled as a mass-spring-damper system exhibiting simple har

Medium

SHM Displacement Analysis

A mass-spring system oscillates horizontally on a frictionless surface. The displacement is given by

Easy

Visual Interpretation of SHM in a Pendulum Clock Mechanism

A diagram of a pendulum clock is provided, illustrating its components such as the pendulum, pivot p

Medium
Unit 7: Torque and Rotational Motion

Analysis of Rotational Energy Data

An experiment measured the rotational kinetic energy of a rotating object at various angular velocit

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

Cylindrical Rod Angular Acceleration Experiment Error

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

Easy

Designing an Experiment for Moment of Inertia

You are tasked with designing an experiment to measure the moment of inertia of an unknown object us

Extreme

Dynamics of a Rotating Cylinder on an Incline

A solid cylinder with mass 10 kg and radius 0.5 m is released from rest and rolls down a 30° incline

Hard

Effects of Frictional Torque on Angular Deceleration

A spinning cylindrical object with a moment of inertia of $$I = 1.2\, kg\cdot m^2$$ slows down due t

Medium

Evaluating Torque Using the Right-Hand Rule

A uniform rod is pivoted at one end. Forces are applied at different angles relative to the rod. In

Easy

Experimental Analysis of Angular Deceleration

This experiment examines angular deceleration using experimental data. Analyze the data, identify tr

Hard

Experimental Analysis of Rotational Deceleration

A rotor is observed to decelerate uniformly, and the following data for angular velocity $$\omega$$

Hard

Rotating Disk Dynamics Experiment

A uniform disk of radius $$R = 0.5$$ m and mass 2 kg is mounted on a nearly frictionless axle. A for

Easy

Rotational Kinetic Energy Experiment Error

A student attempts to measure the rotational kinetic energy of a spinning disk by recording its angu

Hard

Satellite Attitude Control Using Reaction Wheels

A satellite utilizes reaction wheels for attitude control. One of its reaction wheels has a moment o

Extreme

Simple Rotational Motion Problem

A rod pivoting about one end has an initial angular velocity of $$1 \text{ rad/s}$$ and experiences

Easy

Torque and Angular Acceleration Experiment

A series of experiments measures the relationship between applied torque and resulting angular accel

Medium

Torque and Equilibrium Analysis

This problem involves applying the concept of torque to understand equilibrium conditions in a seesa

Medium

Uniform Circular Motion and Linear Relationship

In a controlled experiment, the linear velocity of points on a rotating wheel was measured for diffe

Easy

Variable Torque and its Effects on Rotational Motion

Consider a rotational system where the applied torque varies with time as $$\tau(t) = 2t\text{ N·m}$

Extreme

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

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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.