Physics Classroom
The Physics Classroom: 1 D Kinematics: The Big Misconception
An introduction to the ideas behind the misconception and misunderstanding of why all objects accelerate at the same rate. This explanation involves the concepts of force and mass.
Physics Classroom
The Physics Classroom: Newton's Laws: Determining the Net Force
Students combine their understanding of acceleration and the fact that a net force causes an acceleration to determine whether or not a net force exists in several practice situations. After each problem, they are able to check their...
Physics Classroom
The Physics Classroom: Newton's Laws: Finding Acceleration
This physics tutorial provides students some practice using a given equation to find the acceleration of an object.
Physics Classroom
The Physics Classroom: Horizontal and Vertical Components of Velocity
Students learn how to describe the motion of projectiles numerically; specifically how the numerical values of the x and y components of the velocity and displacement change with time. Includes animations and interactive simulation.
Physics Classroom
The Physics Classroom: Circular and Satellite Motion:circular Motion Mathematics
Using the values of speed, acceleration, and force, students explore and analyze the motion of objects in circles.
Physics Classroom
The Physics Classroom: Circular and Satellite Motion: Principles for Satellites
Students explore how a satellite's motion is governed by the same physics principles and described by the same mathematical equations.
Physics Classroom
The Physics Classroom: 1 D Kinematics: Acceleration vs. Constant Velocity
Observe the animation of the three cars. Use the animation to answer three questions about their acceleration and velocity.
Physics Classroom
The Physics Classroom: 1 D Kinematics: Rightward Velocity and Acceleration
Through an animated illustration of a dot diagram and time graphs, students learn about positive velocity and positive acceleration.
Physics Classroom
The Physics Classroom: Circular, Satellite, Rotational: Uniform Circular Motion
Uniform circular motion can be described as the motion of an object in a circle at a constant speed. This animation depicts this by means of a vector arrow.
Physics Aviary
Physics Aviary: Practice Problems: Displaced Angle for Accelerating Car
Students must solve for the tension in the rope and the acceleration of the car based on the angle of displacement for a hanging mass.
Walter Fendt
Walter Fendt: Uniform Circular Motion
This app simulates circular movement and demonstrates how the position, speed, acceleration, and the applied force vary depending on the time. You may choose the option "slow animation" to make the movement ten times slower. You can also...
Physics Aviary
Physics Aviary: Graphing Motion Problem Level 5
Find out the acceleration of an object from a position vs. time graph by finding the instantaneous velocity at two different points.
Physics Aviary
Physics Aviary: Car Acceleration
Calculate the final speed and the distanced covered by a car that is accelerating because of a certain set of forces acting on the car.
Physics Aviary
Physics Aviary: Acceleration Challenge
Challenges students to get as many vehicle accelerations as possible in a 3 minute time frame. Students must push on the gas to accelerate their vehicle and then use the change in velocity and the change in time to get the acceleration...
Physics Classroom
The Physics Classroom: Describing Motion With Words
This lesson from the Glenbrook South High School gives a nice review and detailed explanation of velocity, speed, distance, displacement, and acceleration. A good introduction to the "language of Kinematics."
Physics Aviary
Physics Aviary: Rail Gun Lab
This lab was designed to have students test the factors that affect the acceleration of a metal bar that is carrying a current through a magnetic field.
Physics Aviary
Physics Aviary: Satellite Lab
This lab is designed to allow students to explore different aspects of satellite motion. Students can vary the mass of the satellite, the orbital radius of the satellite and the body that the satellite is orbiting. Students can measure...
Physics Aviary
Physics Aviary: Force Direction Relative to Motion
This lab/learning activity is designed to introduce students to the idea of how direction of force relative to motion determines the future motion of the object subjected to the force. Students can also explore the factors that determine...
Physics Aviary
Physics Aviary: Circular Acceleration Lab
This lab is designed to examine the factors that affect the radial acceleration that is felt by a driver that is going around a turn. The acceleration sensor is located on the driver's side of the car. Students will be able to change the...
Physics Aviary
Physics Aviary: Newton's Law Lab
This lab was designed to have students investigate the factors that affect the acceleration of an object on a frictionless horizontal surface. The simulation will give the students a position vs. time graph and a velocity vs. time graph....
Physics Aviary
Physics Aviary: Newton's Law Lab With Photogates
This lab was designed to have students investigate the factors that affect the acceleration of an object on a frictionless horizontal surface. The simulation will give the students data from two photogates which they must use to find the...
Physics Aviary
Physics Aviary: Inclined Plane Lab
This lab was designed to have students discover the connection between the angle of incline and the acceleration of the object on the incline. Students can vary the angle and the mass of the frictionless object.
Physics Aviary
Physics Aviary: Atwood Machine Lab
This lab was designed to have students practice the Atwood lab prior to doing it for real. Students can adjust the masses and the planet and then collect position vs. time data and velocity vs. time data.
Physics Aviary
Physics Aviary: Measuring Acceleration With Photogates Prelab
This prelab was designed to allow students to practice finding the acceleration of an object using two photogates. It was meant to be used prior to using the photogates in real life.