Name _____Answer Key____ 1. force ____Any push or pull that
... C. Decide whether the underlined term or phrase makes each statement true or false. If the statement is true, write the word true on the line. If the statement is false, write the word false on the line and write a word or phrase that makes the statement true. ________True____________ 1. Balanced fo ...
... C. Decide whether the underlined term or phrase makes each statement true or false. If the statement is true, write the word true on the line. If the statement is false, write the word false on the line and write a word or phrase that makes the statement true. ________True____________ 1. Balanced fo ...
Review - bYTEBoss
... 1. In everyday use, inertia means that something is hard to get moving. Is this the only meaning it has in physics? If not, what other meaning does it have? 2. How would you determine that two objects have the same inertia? 3. When a number of different forces act on an object, is the net force nece ...
... 1. In everyday use, inertia means that something is hard to get moving. Is this the only meaning it has in physics? If not, what other meaning does it have? 2. How would you determine that two objects have the same inertia? 3. When a number of different forces act on an object, is the net force nece ...
net force
... will not change their motion – Objects at rest will stay at rest – Objects in motion will maintain that motion – no acceleration will occur • Forces are in equilibrium • Resistance to change in motion is due to ...
... will not change their motion – Objects at rest will stay at rest – Objects in motion will maintain that motion – no acceleration will occur • Forces are in equilibrium • Resistance to change in motion is due to ...
Chapter 12: Gravitation
... about an object that’s not near the surface of the Earth? How should the expression for U grav be modified? Consider the work done by some external agent in raising a mass m from ri to rf (measured relative to the center of the Earth). Let Fapplied be the magnitude of the force that the external age ...
... about an object that’s not near the surface of the Earth? How should the expression for U grav be modified? Consider the work done by some external agent in raising a mass m from ri to rf (measured relative to the center of the Earth). Let Fapplied be the magnitude of the force that the external age ...
Newton`s Laws of Motion
... Newton’s Second Law of Motion • What the law states: The unbalanced net force acting on an object is equal to the product of its mass and its acceleration - OR Force (in Newtons) ...
... Newton’s Second Law of Motion • What the law states: The unbalanced net force acting on an object is equal to the product of its mass and its acceleration - OR Force (in Newtons) ...
Chapter 4 Notes
... • An elephant and a mouse would both have zero weight in gravity-free space. If they were moving toward you with the same speed would they bump into you with the same force? • No, the elephant is harder to stop, more inertia. ...
... • An elephant and a mouse would both have zero weight in gravity-free space. If they were moving toward you with the same speed would they bump into you with the same force? • No, the elephant is harder to stop, more inertia. ...
Name - Manasquan Public Schools
... 31. The weight of an object on Earth is greater than the weight of an object on the surface of the moon, but the object’s mass stays the same is ______________. 32. When air resistance balances the weight of an object that is falling, the velocity remains _____________________. 33. According to Newt ...
... 31. The weight of an object on Earth is greater than the weight of an object on the surface of the moon, but the object’s mass stays the same is ______________. 32. When air resistance balances the weight of an object that is falling, the velocity remains _____________________. 33. According to Newt ...
Unit 6 Powerpoint
... Uniform circular motion occurs when an object moves in a circular path with a constant speed An acceleration exists since the direction of the motion is changing ...
... Uniform circular motion occurs when an object moves in a circular path with a constant speed An acceleration exists since the direction of the motion is changing ...
Gravity and Outer Space
... If the mass increases, what happens to the required net force if the acceleration is to be kept the same? Increased net force ...
... If the mass increases, what happens to the required net force if the acceleration is to be kept the same? Increased net force ...
Rotational Mechanics
... • Tomlin called Russell "a one-trick pony. He's down hill. It doesn't matter what play you call for him. It's down hill. That happens to be a positive attribute for those ...
... • Tomlin called Russell "a one-trick pony. He's down hill. It doesn't matter what play you call for him. It's down hill. That happens to be a positive attribute for those ...
Explaining motion
... of the object does not change Law 2 – if there is a resultant force acting on an object, the momentum will change (c.o.m.=r.f x time) and is in the same direction ...
... of the object does not change Law 2 – if there is a resultant force acting on an object, the momentum will change (c.o.m.=r.f x time) and is in the same direction ...
Force
... Force increases directly as the mass of an object increases Force increases directly as an object accelerates to a higher speed In other words, Force = mass x acceleration ...
... Force increases directly as the mass of an object increases Force increases directly as an object accelerates to a higher speed In other words, Force = mass x acceleration ...
Chapter 5 - Mr. Theby
... Lever: a simple machine that consists of a bar that pivots at a fixed point called a fulcrum ◦ First Class Lever: The fulcrum is between the input force and the load, always change the direction of the input force. Ex: push down = load goes up ◦ Second Class Lever: The load is between the fulcrum an ...
... Lever: a simple machine that consists of a bar that pivots at a fixed point called a fulcrum ◦ First Class Lever: The fulcrum is between the input force and the load, always change the direction of the input force. Ex: push down = load goes up ◦ Second Class Lever: The load is between the fulcrum an ...
