free fall and projectile motion
... matter”. More precisely mass is a measure of inertia. We will measure mass in kilograms (kg) this year. The more mass a body has the more inertia it has (the harder it is to change an object’s state of motion be it at rest or in motion. The mass of an object is constant anywhere in the universe. It ...
... matter”. More precisely mass is a measure of inertia. We will measure mass in kilograms (kg) this year. The more mass a body has the more inertia it has (the harder it is to change an object’s state of motion be it at rest or in motion. The mass of an object is constant anywhere in the universe. It ...
Newton`s Laws of Motion
... 1. First Law (The Law of Inertia): An object at rest remains at rest until acted on by an outside force; an object in motion remains in motion until acted on by an outside force. What it means: A soccer ball sitting still in the grass will stay still unless someone kicks it. That soccer ball will ke ...
... 1. First Law (The Law of Inertia): An object at rest remains at rest until acted on by an outside force; an object in motion remains in motion until acted on by an outside force. What it means: A soccer ball sitting still in the grass will stay still unless someone kicks it. That soccer ball will ke ...
energy of motion
... The pull of gravity is a force that might set an object (or a skier) in motion. The pull or push of a magnet is another force that can move objects. The force you exert with your legs or arms can set a ball in motion. ...
... The pull of gravity is a force that might set an object (or a skier) in motion. The pull or push of a magnet is another force that can move objects. The force you exert with your legs or arms can set a ball in motion. ...
Force
... gives energy to an object, sometimes causing a change in the motion of the object. We recognize the forces that occur when one object touches another, contact forces, but there are forces that we can’t see, forces that work at a distance. ...
... gives energy to an object, sometimes causing a change in the motion of the object. We recognize the forces that occur when one object touches another, contact forces, but there are forces that we can’t see, forces that work at a distance. ...
gravitation-review
... You should know the equation. Be able to describe the relationships in words, with graphs, with calculations, and applications. For orbiting objects (moons, satellites, comets) that have a change in (mass, radius, or velocity) you should be able to tell how (Fg, T, vel, “g”) are affected. This could ...
... You should know the equation. Be able to describe the relationships in words, with graphs, with calculations, and applications. For orbiting objects (moons, satellites, comets) that have a change in (mass, radius, or velocity) you should be able to tell how (Fg, T, vel, “g”) are affected. This could ...
Solution key to exam 1 - University of Rochester
... ____ Charles Coulomb discovered the fundamental nature of light in terms of electric and magnetic fields. ____ For any two people, time flows at exactly the same rate. ____ Albert Einstein invented Newton’s Laws. ____ The New York Yankees baseball players are heavily overpaid. ____ An object can be ...
... ____ Charles Coulomb discovered the fundamental nature of light in terms of electric and magnetic fields. ____ For any two people, time flows at exactly the same rate. ____ Albert Einstein invented Newton’s Laws. ____ The New York Yankees baseball players are heavily overpaid. ____ An object can be ...
Forces in Motion
... same for all objects. The force of gravity is greater between Earth and an object with a large mass than between Earth and a less massive object. Greater force must be applied to a large mass than to a small mass to produce the same ...
... same for all objects. The force of gravity is greater between Earth and an object with a large mass than between Earth and a less massive object. Greater force must be applied to a large mass than to a small mass to produce the same ...
Number Name
... 11. Is it possible to exert a force and yet not cause a change in kinetic energy? _________________________________________________________________________________________ _________________________________________________________________________________________ ______________________________________ ...
... 11. Is it possible to exert a force and yet not cause a change in kinetic energy? _________________________________________________________________________________________ _________________________________________________________________________________________ ______________________________________ ...
SCCS Physics Chapter 11 Study Guide Name
... 10. Describe an object that has rotational KE but no translational KE. 11. Describe an object that has translational KE but no rotational KE. 12. At what point in a pendulum’s swing are the the following quantities at maximum values? a) velocity b) potential energy c)kinetic energy PROBLEMS: (Draw a ...
... 10. Describe an object that has rotational KE but no translational KE. 11. Describe an object that has translational KE but no rotational KE. 12. At what point in a pendulum’s swing are the the following quantities at maximum values? a) velocity b) potential energy c)kinetic energy PROBLEMS: (Draw a ...