Word Format - Marist Library
... OVERVIEW OF LAB DESCRIPTION In this exercise students will experiment with an Atwood Pulley to determine the relationship between the applied forces acting on a system and its resultant motion. Students will be asked to devise procedures that will allow them to correctly predict the acceleration of ...
... OVERVIEW OF LAB DESCRIPTION In this exercise students will experiment with an Atwood Pulley to determine the relationship between the applied forces acting on a system and its resultant motion. Students will be asked to devise procedures that will allow them to correctly predict the acceleration of ...
IV. Force & Acceleration
... Mass and Acceleration • If you throw a softball and a baseball as hard as you can, why don’t they have the same speed? • The difference is due to their masses. • If it takes the same amount of time to throw both balls, the softball would have less. • Force, mass, acceleration and acceleration are r ...
... Mass and Acceleration • If you throw a softball and a baseball as hard as you can, why don’t they have the same speed? • The difference is due to their masses. • If it takes the same amount of time to throw both balls, the softball would have less. • Force, mass, acceleration and acceleration are r ...
Rolling Motion: • A motion that is a combination of rotational
... • The speed at the bottom does not depend on the radius or the mass of the disk. • The speed at the bottom is less than when the disk slides down a frictionless ramp: v = 2gh • The angular speed depends on the radius but not the mass. • We can still apply conservation of energy even though there is ...
... • The speed at the bottom does not depend on the radius or the mass of the disk. • The speed at the bottom is less than when the disk slides down a frictionless ramp: v = 2gh • The angular speed depends on the radius but not the mass. • We can still apply conservation of energy even though there is ...
PowerPoint-Force and Motion
... • Gravity is a force of attraction between objects that is due to their masses. The force of gravity can change the motion of an object by changing its speed, direction, or both. ...
... • Gravity is a force of attraction between objects that is due to their masses. The force of gravity can change the motion of an object by changing its speed, direction, or both. ...
midterm study guide answer key
... An orange might roll off your cafeteria tray when you stop suddenly because of_____________INERTIA_________________ What kind of friction occurs as a fish swims through water? ______________FLUID________________ An object that is accelerating may be___________SLOWING DOWN, SPEEDING UP, CHANGING DIRE ...
... An orange might roll off your cafeteria tray when you stop suddenly because of_____________INERTIA_________________ What kind of friction occurs as a fish swims through water? ______________FLUID________________ An object that is accelerating may be___________SLOWING DOWN, SPEEDING UP, CHANGING DIRE ...
F r i c t i o n - Southgate Community School District
... 1. Circle what the question is asking you to find (less than 3 words!). Put the symbol for this phrase under Unknown: section. 2. Read problem and list all of your GIVENS as their symbols NOT words under GIVEN: section. 3. Go to your formula sheet and pick a formula that has ALL GIVENS AND UNKNOWN i ...
... 1. Circle what the question is asking you to find (less than 3 words!). Put the symbol for this phrase under Unknown: section. 2. Read problem and list all of your GIVENS as their symbols NOT words under GIVEN: section. 3. Go to your formula sheet and pick a formula that has ALL GIVENS AND UNKNOWN i ...
L3 ROTATIONAL MOTION
... Just like all linear motion has speed, acceleration and momentum so does all rotational motion. We call rotational momentum angular momentum as it is mass moving in a circular motion. Thus angular momentum (L) is made up of a mass (m) and angular velocity (). However instead of mass we now talk abo ...
... Just like all linear motion has speed, acceleration and momentum so does all rotational motion. We call rotational momentum angular momentum as it is mass moving in a circular motion. Thus angular momentum (L) is made up of a mass (m) and angular velocity (). However instead of mass we now talk abo ...
Newtons Laws of Motion - Winston Churchill High School
... Objects that are standing still are in equilibrium because their acceleration is zero. ...
... Objects that are standing still are in equilibrium because their acceleration is zero. ...
