Stacey Carpenter - University of Hawaii System
... He also found that acceleration is inversely proportional to mass; the bigger the object, the harder it is to get it going. If the object has twice the mass, the acceleration will be half as much. a 1/m Then he put the two together. a F/m Later, the proportionality was made into an equation a = ...
... He also found that acceleration is inversely proportional to mass; the bigger the object, the harder it is to get it going. If the object has twice the mass, the acceleration will be half as much. a 1/m Then he put the two together. a F/m Later, the proportionality was made into an equation a = ...
Lab #2: The Inertia Challenges
... 5. Punch a hole in the middle of the paper cover where the hole of the spool is. Now your hole should run through the paper, spool, and cardboard without any obstructions (watch for too much glue). 6. Blow up the balloon and twist the end to keep the air from escaping. Stretch the balloon over the t ...
... 5. Punch a hole in the middle of the paper cover where the hole of the spool is. Now your hole should run through the paper, spool, and cardboard without any obstructions (watch for too much glue). 6. Blow up the balloon and twist the end to keep the air from escaping. Stretch the balloon over the t ...
ch. 5-2 forces powerpoint
... • Forces in the Same Direction Two forces are added to determine the net force if the forces act in the same direction. The net force will be in the same direction as the individual forces. • Forces in Different Directions If forces are acting in opposite directions, the net force can be found by su ...
... • Forces in the Same Direction Two forces are added to determine the net force if the forces act in the same direction. The net force will be in the same direction as the individual forces. • Forces in Different Directions If forces are acting in opposite directions, the net force can be found by su ...
ch08_LecturePPT
... rotational velocity of 5 rev/s about a vertical axis. The rotational inertia of the wheel is 2 kg·m2 about its center and the rotational inertia of the student and wheel and platform about the rotational axis of the platform is 6 kg·m2. What is the initial angular momentum of the system? a) ...
... rotational velocity of 5 rev/s about a vertical axis. The rotational inertia of the wheel is 2 kg·m2 about its center and the rotational inertia of the student and wheel and platform about the rotational axis of the platform is 6 kg·m2. What is the initial angular momentum of the system? a) ...
Rotational Dynamics - Piri Reis Üniversitesi
... VII. Rotational Kinetic Energy When using conservation of energy, both rotational and translational kinetic energy must be taken into account. All these objects have the same potential energy at the top, but the time it takes them to get down the incline depends on how much rotational inertia they ...
... VII. Rotational Kinetic Energy When using conservation of energy, both rotational and translational kinetic energy must be taken into account. All these objects have the same potential energy at the top, but the time it takes them to get down the incline depends on how much rotational inertia they ...
Period 5 Activity Sheet Solutions: Forces and Newton’s Laws
... 1) Your instructor will demonstrate two toy cars moving up an incline. Explain the differences in the motion of the cars as they go up the incline. As the cars go up the incline, the car with metal wheels slips sooner than the car with rubber band wheels because there is more friction between the ru ...
... 1) Your instructor will demonstrate two toy cars moving up an incline. Explain the differences in the motion of the cars as they go up the incline. As the cars go up the incline, the car with metal wheels slips sooner than the car with rubber band wheels because there is more friction between the ru ...
Midterm Review Name: Date: 1. The length of a string is 85
... A 2.0-kilogram cart moving due east at 6.0 meters per second collides with a 3.0-kilogram cart moving due west. The carts stick together and come to rest after the collision. What was the initial speed of the 3.0-kilogram cart? A. ...
... A 2.0-kilogram cart moving due east at 6.0 meters per second collides with a 3.0-kilogram cart moving due west. The carts stick together and come to rest after the collision. What was the initial speed of the 3.0-kilogram cart? A. ...
Force and Acceleration: Newton`s 2nd Law of Motion 1 Purpose 2
... data with linearization by logarithms. Data analysis will be performed using Excel. ...
... data with linearization by logarithms. Data analysis will be performed using Excel. ...
PowerPoint Presentation - ABOUT TEAL
... Not a vector quantity (but vector concepts needed to calculate its value). Depends on both the direction of the force and the direction of the motion. ...
... Not a vector quantity (but vector concepts needed to calculate its value). Depends on both the direction of the force and the direction of the motion. ...
