AP Physics 1: Algebra-Based FRQ Room

Analysis of a Velocity-Time Graph

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

Analyzing Position vs Time Graph

A student tracks the motion of an object along a straight track and records its position over time.

Angular Sensor Misalignment Error

A student sets up a light sensor to measure the displacement of a robot moving along a hallway by de

Average Acceleration in Non-uniform Motion

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

Car Acceleration Analysis

A car starting from rest accelerates uniformly along a straight road. Sensors record the car’s motio

Car Acceleration and Deceleration Analysis

A car undergoes a three-phase journey. First, it accelerates uniformly from rest with an acceleratio

Centripetal Acceleration in Circular Motion

A particle moves in a circle of radius 2.0 m at a constant speed of 4 m/s. Analyze the centripetal a

Collision Analysis: Elastic vs Inelastic Collisions

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

Comparing Uniform and Non-Uniform Acceleration

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

Comparison of Scalar and Vector Quantities

Consider two objects: Object A moves 15 m east and Object B moves 15 m west over the same time perio

Decomposing Projectile Motion into Components

A projectile is launched at an angle from the horizontal.

Designing a Motion Sensor Experiment

A team is tasked with designing an experiment to track the acceleration of a toy car along a straigh

Designing an Experiment to Measure Acceleration

You are tasked with designing a controlled experiment to measure the acceleration of an object. Cons

Determining Displacement from a Speed-Time Graph

A runner’s speed (magnitude only) was recorded over time, with the data below: | Time (s) | Speed (

Determining Instantaneous Velocity Using Video Analysis

Design an experiment that utilizes video analysis to determine the instantaneous velocity of an obje

Distance and Displacement Analysis

An object follows a path with several segments as outlined in the table. The object moves from point

Distance and Displacement Analysis in One-Dimensional Motion

A small cart travels along a straight track and its position is recorded at various times. Use the p

Distance vs. Displacement Analysis

A researcher records the motion of a runner who follows a multi-segment track. The runner starts at

Effects of Friction on Motion

A block is sliding on a horizontal surface with an initial speed of 12 m/s. Due to friction, the blo

Evaluating Air Resistance in Projectile Motion

An experiment measured projectile ranges at various launch angles. Compare the theoretical and measu

Experiment on Uniform Acceleration

A student conducts a laboratory experiment to study uniform acceleration of a cart on a track. The f

Force Vector Addition Experiment

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

Free Fall and Impact Speed

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

Free-Fall Motion Analysis

An object is dropped from a height of 45 m. Neglect air resistance for this problem.

Friction in Inclined Plane Experiment Error

A student sets up an experiment on an inclined plane to determine the coefficient of kinetic frictio

Hiking Trail: Distance vs. Displacement

A hiker embarks on a trail that forms a loop. The hiker starts at the base camp, hikes to a lookout

Horizontal Launch from Elevated Platform

A researcher studies a projectile launched horizontally from an elevated platform. The platform is 2

Instantaneous vs. Average Speed

An object’s position as a function of time is given by $$x(t) = 2 * t^3 - 5 * t^2 + t + 10$$, with x

Interpreting a Graph with Error Bars

An experiment measures the position of a moving object over time with data points that include error

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

Jogger's Path Analysis: Distance and Displacement

A local news article reports that a jogger's displacement during his run was equal to the total dist

Kinematics of a Decelerating Vehicle

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

Measuring Displacement in Complex Paths Using Smartphone GPS Data

Design an experiment that utilizes smartphone GPS data to measure both the total distance traveled a

Methods for Calculating Displacement

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

Motion on an Incline: Kinematics and Friction

A ball rolls down an inclined plane and its position is recorded over time. Answer the following par

Motion on an Inclined Plane

An object slides down a frictionless inclined plane that is 5 m long and inclined at an angle of 30°

Motion with a Stopping Force and Reaction Delay

A skateboarder is moving at 6 m/s. Due to a reaction time delay of 0.5 s, no deceleration occurs dur

Multi-Phase Motion: Train Journey Analysis

A train journey consists of three distinct phases: acceleration from rest, travel at constant speed,

Navigational Vector Addition

A boat is attempting to cross a river. The boat’s engine provides a velocity of 8 m/s due north rela

Oscillatory Motion of a Mass on a Spring

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

Projectile Motion Experiment Design

Design a controlled experiment to investigate the effects of launch angle on the range of a projecti

Projectile Motion in Wind

A soccer player kicks a ball with an initial speed of $$20\ m/s$$ at an angle of $$40^\circ$$ above

Projectile's Time of Flight and Range Experiment

Design an experiment to measure and analyze the relationship between a projectile's time of flight a

Race Track Analysis: Distance vs Displacement

A runner completes a race track composed of several straight segments in different directions. The r

Relative Motion Analysis of Two Objects

Two objects, A and B, are moving along the same straight line. Use the information below to analyze

River Crossing Challenge

A boat aims to cross a river that is 100 m wide by pointing directly across. However, the river has

Scalar vs. Vector Quantities

Discuss the difference between scalar and vector quantities and classify some common physical quanti

Simulated Impact Test: Speed and Velocity

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

Solving Kinematic Equations with Given Data

This question involves using kinematic equations to analyze motion given experimental data. Refer to

Surface Friction Experiment: Effects on Motion

Students design an experiment to study how surface friction affects the motion of a sliding block al

Uniform Acceleration Data Analysis using Tables

A student records the following data for a toy car undergoing uniform acceleration: | Time (s) | Ve

Uniformly Accelerated Free Fall Analysis

A rock is dropped from a building and its motion is analyzed using both kinematics and a provided ve

Uniformly Accelerated Motion and BIG FIVE Equations Lab

A lab experiment involves releasing a cart from rest down a ramp to study uniformly accelerated moti

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

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

Video Analysis of Accelerated Motion

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

Air Track and Glider System Experiment

In an effort to study nearly frictionless motion, students use an air track with a glider and record

Analysis of a Two-Force Pulley System

In a pulley system, a 4 kg block rests on a 40° inclined plane with a kinetic friction coefficient o

Analyzing Equilibrium on an Inclined Plane

An object remains at rest on an inclined plane due to a balance of forces. A researcher explores the

Application of Newton’s Laws in Sports Dynamics: The Soccer Ball Kick

A sports science article claims that the acceleration of a soccer ball immediately after being kicke

Block on an Inclined Plane with Friction Analysis

A block of mass $$m$$ slides down an inclined plane with an angle $$\theta$$. The coefficient of kin

Chain of Collisions: Newton's Third Law and Momentum Transfer

A series of carts on a frictionless track undergo sequential elastic collisions. Cart A (mass $$m_A

Characterizing Friction on a Sloped Surface

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

Circular Motion on a Banked Curve

A car of mass $$m$$ travels at speed $$v$$ along a banked circular road of radius $$r$$ and banking

Collision Dynamics: Elastic vs Inelastic

Examine collisions to understand the differences between elastic and inelastic interactions.

Comparing Gravitational and Inertial Mass

This question addresses the relationship and differences between gravitational mass and inertial mas

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

Critical Analysis of an Experiment on Air Resistance in Free Fall

A study reports that when air resistance is taken into account, the acceleration of objects in free

Designing a Multi-Factor Experiment for Vehicle Safety Dynamics

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

Designing a Pulley System to Study Accelerated Motion

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

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

Dynamic Equilibrium on a Rotating Platform

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

Dynamics Experiment 7: Frictional Force Analysis on a Horizontal Surface

A student conducts an experiment to determine the kinetic friction acting on a cart sliding across a

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

Dynamics FRQ #1: Net Force and Acceleration Analysis

A block on a frictionless surface of mass 5.0 kg is acted upon by two horizontal forces. A force of

Dynamics FRQ #6: Circular Motion on a Banked Curve

A car of mass 1500 kg is rounding a frictionless banked curve of radius 50 m. The curve is banked at

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

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

Dynamics FRQ #14: Rotational Equilibrium on a See-Saw

A uniform see-saw 4.0 m long and weighing 20 kg is pivoted at its center. Child A, weighing 30 kg, s

Dynamics FRQ #16: Terminal Velocity with Air Resistance

A skydiver of mass 70 kg experiences an air resistance force proportional to velocity given by $$F_{

Dynamics of a Block on an Incline with Applied Force

An experiment investigates the motion of a block on an inclined plane while an additional force is a

Dynamics of a Ladder Against a Wall

A ladder of length $$L = 4 * m$$ leans against a frictionless wall and rests on a rough ground with

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

Dynamics of a Two-Block System on a Frictionless Surface

Two blocks with masses $$m_1 = 3.0\; kg$$ and $$m_2 = 5.0\; kg$$ are connected by a light, inextensi

Dynamics of Connected Masses on an Incline and Pulley

A 4 kg mass is placed on a frictionless inclined plane with an angle of 25°. It is connected by a li

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

Dynamics Problem 6: Circular Motion and Friction

A car is negotiating a flat circular curve of radius $$r = 20\ m$$. The coefficient of static fricti

Effect of Changing Mass on a Rotating Platform Dynamics

A person stands on a frictionless rotating platform holding weights. Initially, with the weights hel

Effects of Air Resistance in Projectile Motion

Examine how air resistance affects projectile motion by modifying the standard equations of motion.

Evaluating Frictional Force Variations in a Lab Experiment

An experimental report investigates frictional forces for different materials sliding over a surface

Forces in a Two-Box Pulley System

Investigate the forces acting in a two-box pulley system and derive the acceleration of the system.

Friction and Motion Experiment

A car of mass $$m$$ decelerates on a roadway due to kinetic friction. The experiment measures the ca

FRQ1: Dynamics on a Frictionless Track

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

FRQ17: Suspended Mass Dynamics under Horizontal Forces

In an experiment, a suspended mass is subjected to varying horizontal forces. The resulting horizont

Gravitational and Inertial Mass Comparison Experiment

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

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

Impulse and Momentum in Collisions

During collisions, the impulse delivered to an object is closely related to its change in momentum.

Investigating Inertia on an Air Track

An experiment is set up on an air track to minimize friction and test Newton's first law (inertia).

Investigating Motion on an Inclined Plane

A student studies a frictionless object's acceleration on an inclined plane by measuring acceleratio

Mass Distribution and Acceleration

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

Measuring Frictional Forces on a Horizontal Surface

A block of mass $$8 ~kg$$ is pulled across a horizontal surface by a force sensor. The applied force

Motion on an Inclined Plane

A block of mass $$m$$ is placed on a frictional inclined plane with an angle $$\theta$$. Analyze the

Motion on an Inclined Plane

A block is placed on a frictionless inclined plane that makes an angle $$\theta$$ with the horizonta

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

Newton's Third Law: Analysis of Action-Reaction Forces

A collision experiment is conducted where two objects interact over a short interval of time. A grap

Newton's Third Law: Collision Analysis

Two objects, A and B, collide on a frictionless surface. Analyze the forces during the collision to

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

Pendulum Experiment for Gravitational Acceleration

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

Projectile Motion and Air Resistance in a Thrown Ball Experiment

A sports news report claims that for a ball thrown at speeds below $$20$$ m/s, air resistance has a

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

Rotational-Translational Dynamics in a Rolling Cylinder

A student investigates a cylinder rolling down an inclined plane without slipping. The experiment in

Static Friction and Threshold of Motion

A 5 kg block on a horizontal surface is gradually pushed until it starts to move. The minimum force

Static vs. Kinetic Friction Experiment

Investigate the differences between static and kinetic friction through definitions, experimental da

Tension and Pulley Systems

A 5 kg block on a frictionless horizontal surface is attached to a string that goes over a pulley an

Translational and Rotational Dynamics in Rolling Motion

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

Analysis of a Rotating Space Station for Artificial Gravity

A proposed rotating space station creates artificial gravity on its inner surface by rotating as a c

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

Banked Curve Dynamics

A car negotiates a banked curve with a 30° incline and a radius of 100 m. Answer the following:

Calculation of Gravitational Acceleration on a Different Planet

A probe lands on a small planet and records the following parameters: mass of the planet is $$5.0 \t

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

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

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

Comparative Analysis of Gravitational Acceleration on Different Planets

This problem examines how planetary mass and radius affect surface gravitational acceleration.

Comparing Gravitational and Electric Force Effects

A series of experiments compare the magnitudes of gravitational and electric forces between pairs of

Comparing Observed and Predicted Acceleration in Circular Motion

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

Comparing Orbital Motion with Circular Motion on Earth

A comparative study has compiled data from satellites in orbit and vehicles navigating circular test

Designing a Centripetal Force Experiment

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

Designing an Experiment to Measure Centripetal Acceleration

Design an experiment to measure the centripetal acceleration of an object in uniform circular motion

Determining Angular Speed from Tangential Speed

A rotating disc has a marked point on its edge, and its tangential speed is measured directly. Use t

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

Electric Force: Experimental Measurement Analysis

This problem requires analysis of experimental data to verify Coulomb's Law through measured electri

Energy Considerations in Circular Motion: Kinetic and Potential Energy Analysis

Design an experiment to measure the kinetic and potential energy of an object undergoing uniform cir

Escape Velocity Derivation

A satellite must achieve escape velocity to break free from a planet’s gravitational field. Using en

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

Graphical Analysis of Angular Motion

A graph showing angular displacement $$\theta$$ (in radians) versus time $$t$$ (in seconds) for an o

Investigating Free Fall using Sensor Data

An object is dropped in a vacuum chamber and its displacement is recorded over time using a high-spe

Investigating the Role of Mass in Circular Motion

A 1.0 kg mass is moving in uniform circular motion in a horizontal circle of radius 2.0 m with a con

Measuring Gravitational Acceleration Variation on Earth's Surface

An experiment was conducted in a mountainous region to measure gravitational acceleration at various

Orbital Mechanical Energy Analysis

An object in a circular orbit around a planet has both kinetic energy and gravitational potential en

Satellite Orbital Motion: Gravitational and Centripetal Force

A satellite orbits the Earth in a circular path. In such an orbit, the gravitational force provides

Spring-Connected Particle in Circular Motion

A particle of mass m is attached to a spring (with spring constant k and natural length \(L_0\)) tha

Tension in a Rotating System: Analysis of Centripetal Force

A student investigates the role of tension in a string as the provider of centripetal force in a rot

Transition from Circular to Projectile Motion

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

Uniform Circular Motion of a Car on a Circular Track

A car of mass m drives along a circular track at constant speed. Analyze the forces involved in this

Analyzing Work Against Friction with an Angled Force

A 4 kg block on a horizontal surface with a kinetic friction coefficient $$\mu_k = 0.25$$ is pushed

Calculating Kinetic Energy Change from Work

A 3 kg cart initially moves at 2 m/s and experiences a net work of 50 J. Answer the following:

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

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

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

Efficiency Analysis of a Mechanical System

A machine requires an input energy of $$5000\;J$$ and produces a work output of $$3200\;J$$. Calcula

Efficiency Analysis of an Electric Motor

An electric motor is tested for its efficiency in converting electrical energy into mechanical work.

Energy Transfers in a Bungee Jump

A bungee jumper with a mass of $$70\,kg$$ jumps from a bridge $$50\,m$$ above the river and reaches

Energy Transformation in a Multi-stage Process

A 5 kg block is dropped from a height of 8 m onto a spring with a force constant $$k = 200\,N/m$$. T

Evaluating Mechanical Advantage in a Pulley System

A pulley system is used to lift a 100 kg load. The system requires an applied force of $$150 N$$ ove

Exploring Conservation of Mechanical Energy in Bouncing Ball Dynamics

A ball is dropped from a set height and allowed to bounce multiple times on a hard surface. The peak

Exploring the Relation Between Power Output and Time in Lifting Tasks

Design an experiment to explore how power output varies during the lifting of weights. Power is defi

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

Frictional Work Analysis on a Moving Block

A researcher pushes a 2 kg block on a rough horizontal surface. The block has an initial speed of $$

Interpreting a Work-Energy Graph

Examine the following graph which plots the kinetic energy (KE) of an object versus its displacement

Investigating Kinetic Energy Change in Collisions

Two carts on a frictionless track collide inelastically. Cart 1 (2 kg) is moving at 4 m/s, and Cart

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

Measurement of Work Done by Frictional Forces

A block traveling on a rough horizontal track comes to a stop due to friction. The initial kinetic e

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

Mechanical Energy in a Bouncing Ball

A ball with a mass of $$0.2\;kg$$ is dropped from a height of $$2\;m$$. On the first bounce, it reac

Timing Error in Motor Power Experiment

In this experiment, a student measures the power output of a motor by timing how long it takes to mo

Variable Force from a Graph

A force acting on an object varies with displacement as shown in the graph below. Using the graph, d

Work and Efficiency in a Pulley System

A researcher experiments with a pulley system used to lift a mass. A 10 kg mass is lifted vertically

Work and Power in a Lifting Scenario

A person lifts a 50 kg weight vertically by 2 m in 5 seconds. Answer the following:

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

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

Work Done on an Inclined Plane

A 10 kg sled is pulled up a frictionless hill along its surface for 20 m. The hill is inclined at 25

Work Done with an Angled Force

A worker applies a force to move a crate along a horizontal surface in two different scenarios. Refe

Work Measurement Under Non-Uniform Acceleration

In this experiment, a student measures the work done on a cart that accelerates along a track. A for

2D Collision Analysis in a Skate Park

Two skateboarders collide at an intersection in a skate park. Skateboarder A (mass $$50\,kg$$) is mo

Analysis of Elastic Collision Using Graph Data

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

Automotive Crumple Zone Analysis

Engineers are analyzing the performance of crumple zones in automobiles during collisions. A car of

Basic Momentum and Impulse Calculation

A 1500 kg car is moving to the right with a velocity of $$20\,\text{m/s}$$. Answer the following:

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

Basic Momentum Calculation

This problem introduces the concept of momentum. Answer the following: (a) In your own words, define

Collision Analysis: Conservation of Momentum

In a collision experiment, two carts on a frictionless track are recorded. The following table provi

Comparative Analysis of Elastic and Inelastic Collisions

An experiment is set up to compare elastic and inelastic collisions using two carts. Answer the foll

Comparative Impulse Analysis

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

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

Data Analysis of Elastic versus Inelastic Collisions

A series of collision experiments were performed and the momentum values before and after collisions

Elastic Collision Analysis

A researcher investigates an elastic collision between two gliders on an air track. The experiment t

Experimental Design: Effect of Mass on Momentum

Design an experiment to investigate the hypothesis that, for a constant velocity, increasing the mas

Explosive Separation in a Projectile

A projectile of total mass 5.0 kg explodes mid-air into two fragments. One fragment has a mass of 3.

Force-Time Graph Analysis for Impulse

A force–time graph for a hammer striking a nail is provided. The contact time is $$0.05\,s$$ and the

Hockey Puck Collision with a Wall

A 0.16 kg hockey puck is sliding on ice at 15 m/s, approaching a frictionless wall at an angle of 30

Impulse from a Time-Dependent Force

An object experiences a force that varies with time according to the equation $$F(t) = 4000 - 500 \t

Impulse in Non-collisional Interactions

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

Inelastic Collision Investigation

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

Mid-air Collision Analysis

Two gymnasts collide mid-air and stick together. Gymnast A has a mass of $$55$$ kg and is moving at

Momentum and Safety Design in Car Crashes

Modern cars use design features like airbags and crumple zones to manage the impulse experienced dur

Momentum in Collisions Experiment

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

Momentum Transfer in a Baseball Collision

A 0.145 kg baseball is traveling at 40 m/s towards a bat. After being hit, it rebounds in the opposi

Momentum Transfer in a Soccer Collision

In a soccer game situation, a 0.43 kg soccer ball is kicked and travels at 25 m/s toward a 70 kg goa

Oblique Collision in Billiards

In a game of billiards, a cue ball of mass $$0.17\,\text{kg}$$ traveling at $$2\,\text{m/s}$$ strike

Rebounding Ball Momentum Change

A ball of mass $$0.5\,kg$$ moving at $$3.0\,m/s$$ strikes a wall perpendicularly and rebounds with t

Rocket Propulsion and Momentum Conservation

A small rocket engine expels fuel to generate thrust, demonstrating momentum conservation in rocket

Soccer Kick: Impulse and Momentum

A soccer player kicks a ball, applying a variable force over the period of contact. A force-versus-t

Two-Body Collision Analysis

Two vehicles collide at an intersection. Vehicle A (mass 1200 kg) is traveling east at 15.0 m/s and

Understanding Momentum in Car Crash Reconstruction

In accident reconstruction, conservation of momentum is a key principle. Consider two vehicles: Car

Analyzing Energy Exchange in a Pendulum

A simple pendulum swinging with small amplitude exhibits SHM-like behavior. Answer the following:

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

Analyzing SHM Data to Determine Angular Frequency

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

Calculation Error in Determining Angular Frequency

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

Comparing Amplitude Effects

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

Effect of Amplitude on Force in SHM

Examine the relationship between amplitude and the restoring force in a mass-spring oscillator.

Effect of Mass on Angular Frequency in SHM

In a series of experiments on a mass-spring oscillator, the angular frequency was measured for diffe

Effect of Mass Variation on Oscillation Parameters

An investigation is conducted in which the mass attached to a spring in an SHM system is varied, whi

Energy Conservation Verification in a Spring-Mass System

A researcher tests the conservation of mechanical energy in a spring-mass system undergoing SHM. (a

Energy Distribution in SHM

A researcher investigates how kinetic and potential energy vary during SHM in a mass-spring system.

Energy Loss Mechanisms in SHM

Discuss the mechanisms of energy loss in a system undergoing simple harmonic motion and propose a me

Energy Partition in SHM

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

Energy Transformation in SHM

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

Experimental Verification of the Mass-Spring Period

An experiment is performed with a mass of $$0.3\,kg$$ attached to two different springs, one with sp

Graphical Estimation of SHM Parameters

A researcher obtains a graph of angular displacement versus time for a pendulum. The following graph

Mass-Spring Oscillator Analysis

A researcher studies a mass attached to a spring on a frictionless surface exhibiting simple harmoni

Mathematical Derivation in SHM

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

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

Non-Ideal Oscillations: Driven Harmonic Motion

A mass-spring oscillator is subjected to an external periodic force, resulting in driven harmonic mo

Pendulum Period and Length Determination

A simple pendulum consists of a small bob attached to a string of length $$L$$. (a) Write the expre

Pendulum Period Calculation

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

Pendulum Small Angle Analysis

For a simple pendulum, answer the following: (a) Derive the expression for the period $$T=2π*\sqrt{L

Spring Constant Variation and Oscillation Frequency

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

Synchronization of Coupled Oscillators

Consider two masses connected by springs that are coupled, leading to synchronized oscillations. Ana

Analysis of Rotational Equilibrium on a Seesaw

A seesaw is in rotational equilibrium. A weight of 20 N is placed 1.0 m from the pivot on one side.

Angular Displacement from Arc Length Measurements

A small robot moves along a curved path that is part of a circle with a radius of $$r = 0.5\,m$$. It

Angular Kinematics Analysis

A rotating wheel starts from rest and undergoes constant angular acceleration. Use the data provided

Angular Kinematics Analysis: Table Data

A researcher collected data for a rotating turntable's angular displacement over 10 s. The data are

Center of Mass Calculation of a Two-Object System

A researcher is analyzing a system composed of two masses on a lightweight rod. Mass $$m_1 = 3.0\;kg

Coupled Rotational Systems and Energy Dissipation

Two discs are coupled via friction. Disc A has a moment of inertia of 3 kg*m² and is spinning at 12

Cylindrical Rod Angular Acceleration Experiment Error

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

Designing a Rotational Motion Experiment

Design an experiment to measure the moment of inertia of a solid cylinder. Outline the experimental

Effect of Mass Distribution on Moment of Inertia

Two discs with the same mass and radius but different mass distributions (a solid disc versus a ring

Energy Analysis of a Spinning Disc

A flat, circular disc in an industrial machine accelerates from rest to 100 rad/s in 10 seconds. Its

Energy Conversion in a Flywheel System

A flywheel with a moment of inertia $$I = 0.3 \;kg\cdot m^2$$ rotates at an angular velocity of $$\o

Evaluating Angular Displacement with Variable Acceleration

In an experiment using a rotating platform, the angular acceleration is not constant. Researchers cl

Experimental Investigation of Frictional Torque

A rotating wheel is observed to slow down over time due to frictional torque. This experiment aims t

Gyroscopic Precession Experiment Error

A student conducts an experiment on gyroscopic precession using a spinning top. The top is subjected

Impact of Body Position on Rotational Speed in Diving

A diver alters her body position during a dive, reducing her moment of inertia. Analyze how this cha

Influence of External Friction on Angular Acceleration

A student claims that increasing friction at the pivot of a rotating system significantly reduces it

Merry-Go-Round Rotation Measurement Error

A student analyzes the rotational motion of a merry-go-round by measuring its angular displacement a

Rolling Cylinder Angular Acceleration Measurement Error

A student investigates the acceleration of a rolling cylinder down an inclined plane. The experiment

Rotational Motion in Automotive Dynamics

A car is traveling at a constant speed, and its wheels are in rotational motion. Using the given par

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

Static Equilibrium in a Rotational System

A seesaw is used to study static rotational equilibrium. Two children of different masses sit on opp

Torque and Lever Arm in Rigid Body Rotation

A rigid bar rotates about a fixed pivot. Two forces act on it: a 50 N force applied 2 m from the piv

Using Video Analysis for Rotational Measurements

Design an experiment that utilizes video analysis to measure the rotational motion of an object. You