Curated OER
Unit III: Worksheet 3 - Uniform Acceleration
This three-page instructional activity moves physics masters to show what they know about motion. They analyze graphs of time versus displacement, solve instantaneous and average velocities, solve word problems, and graph results. This...
Curated OER
Unit III: Worksheet 4 - Uniform Acceleration
Eight problems require general physics recruits to calculate acceleration or distance traveled. They read the situations involving cars and buses, running bears, downhill skiers, and a rock slide and then get to work. Provide this as a...
Curated OER
Unit III: Worksheet 1 - Uniform Acceleration
This concise handout posts a diagram of a block sliding down a ramp. High schoolers draw qualitative graphical representations for displacement vs. time, velocity vs. time, and acceleration vs. time. They draw a motion map and list the...
Curated OER
MOTION IN A CIRCLE
Students explore uniform circular motion, and the relation of its frequency of N revolutions/sec with the peripheral velocity v and with the rotation period T, and the "centripetal acceleration" of an object.
Curated OER
Newton's Laws of Motion Crossword
In this Newton's Laws of Motion crossword puzzle worksheet, students use the 13 clues and the terms in the word bank to help them correctly complete the word puzzle.
Curated OER
Projectile Motion Demonstration
Students dicusss Newton's First Law of Motion. They calculate a projectile moving horizontally and vertically at different intervals. They particpate in an experiment in which the projectile is at an angle. They record and discuss the...
Curated OER
Linear Motion
High schoolers are able to build an understanding of linear motion. They are able to define and calculate the speed and acceleration of various objects. Students are able to differentiate betweeen instantaneous speed and average speed....
Curated OER
Unit V: Worksheet 2 - Constant Force
Physics learners studying force and acceleration practice solving eight problems with this assignment. They calculate acceleration and deceleration, net force, and distances required for stopping a moving object. Kinematics equations and...
Exploratorium
Whack-a-Stack
Go wild as you hit a stack of wooden blocks to demonstrate Newton's first and second laws of motion. The blocks at the top of the stack stay put as you knock one at a time out of the bottom. Note, however, that you will need to visit a...
CK-12 Foundation
Irwin 2D
Learners explore two-dimensional motion through visual modeling with an interactive lesson that allows them to control the path of a robot. Graphs show both the horizontal and vertical motion as the robot continues through its entire route.
CK-12 Foundation
Irwin and Ruthie
Learners compare acceleration to displacement through an interactive tutorial that permits them to adjust the running strategy of two robots and watch them race. A graph displays the robot's velocity over time and another shows their...
Curated OER
Drill: Mechanics
In this mechanics worksheet, high schoolers solve 8 problems including finding the formulas to determine the forces on an incline plane, determining the formula for Newton's second law and finding equations relating the tension on...
Physics LAB
Uniform Circular Motion
In this circular motion worksheet, students determine the magnitude of a coin's linear velocity and the magnitude of its acceleration. This worksheet has 14 problems to solve.
Curated OER
Force vs. Displacement Graphs
In this force and displacement worksheet, high schoolers use a graph that shows the force in Newtons vs. the displacement in meters of a 5.0 kg object. Students use the graph to answer 13 questions about the object's kinetic energy,...
CK-12 Foundation
Butterfly Stroke
Swimmers improve their times by understanding the physics of their sport. As a swimmer moves through the water, the efficiency of motion affects the resulting velocity. Through an interactive simulation, pupils change the level of motion...
Curated OER
Combining Kinematics and Dynamics
In this kinematics and dynamics worksheet, learners solve 13 problems where they determine different forces acting upon moving objects. They determine the magnitude of the forces and they also determine how fast the objects are...
Curated OER
Motion in a Circle
Students study about deriving centripetal acceleration for motion at constant speed around a circle.
Curated OER
Motion in a Circle
Students explore uniform circular motion, and the relation of its frequency of N revolutions/sec with the peripheral velocity v and with the rotation period T. They examine how uniform circular motion is a type of accelerated motion.
Curated OER
Unit III: 3
In this unit III: 3 worksheet, students describe motion in words and graph drawings. Students calculate the instantaneous velocity and average velocity. Students also graph the displacement of the object in the word problems.
Curated OER
Trajectory and Range of a Projectile
Students investigate the factors affecting projectile trajectory. In this physics lesson, students calculate the range, time and speed of projectiles using mathematical equations.
Curated OER
Accelerated Frames of Reference: Inertial Forces
Students examine how when applying the laws of motion to an object in an accelerating frame, using coordinates defined in such frame, one must always add an "inertial force", representing forces caused by the frame's acceleration.
Curated OER
Rotational Dynamics
In this motion worksheet, students calculate the initial angular acceleration, and the angular speed before and after impact for different objects. This worksheet has 3 problems to solve.
Curated OER
@23 Accelerated Frames of Reference: Inertial Forces #23a Frames of Reference: The Centrifugal Force
Students distinguish between the centripetal and centrifugal forces.
Curated OER
Newton's Law Vocabulary
In this Isaac Newton worksheet, students analyze ten words in a word box that pertain to Newton's Law. Students match these words to their definitions.