Newton`s Laws PPT
... FREE FALL- when an object is being pulled down by gravity, but no other forces are acting on it. Does free fall occur with air resistance? ...
... FREE FALL- when an object is being pulled down by gravity, but no other forces are acting on it. Does free fall occur with air resistance? ...
Physics 220 – Exam #1
... instantaneous velocity = slope of position versus time instantaneous acceleration = slope of velocity versus time For constant acceleration: x = x0 + v0 t + 12 at2 v = v0 + at v 2 = v02 + 2a(x − x0 ) ...
... instantaneous velocity = slope of position versus time instantaneous acceleration = slope of velocity versus time For constant acceleration: x = x0 + v0 t + 12 at2 v = v0 + at v 2 = v02 + 2a(x − x0 ) ...
Worksheet on W=mgh
... Work is defined as the force on an object in the direction of an object’s motion multiplied by the idstance the object moves. Or: W=(F)(d). If the force is at an angle to the object’s motion, only the component of the force that is parallel to the object’s motion is used to determine the work on the ...
... Work is defined as the force on an object in the direction of an object’s motion multiplied by the idstance the object moves. Or: W=(F)(d). If the force is at an angle to the object’s motion, only the component of the force that is parallel to the object’s motion is used to determine the work on the ...
Circular Motion Notes
... Circular Motion Notes Uniform Circular Motion – is the movement of an object at constant speed around a circle with a fixed radius. Centripetal Acceleration – The acceleration of an object in uniform circular motion. The centripetal acceleration always points towards the center. ac = v2/ r Where ac ...
... Circular Motion Notes Uniform Circular Motion – is the movement of an object at constant speed around a circle with a fixed radius. Centripetal Acceleration – The acceleration of an object in uniform circular motion. The centripetal acceleration always points towards the center. ac = v2/ r Where ac ...
Force, Net Force, and Inertia
... objects must be touching – Friction – Normal, perpendicular force between two objects in contact with each other – Tension of ropes, strings, chains, springs, etc. ...
... objects must be touching – Friction – Normal, perpendicular force between two objects in contact with each other – Tension of ropes, strings, chains, springs, etc. ...
Name_________________Date___________Period_____ Num
... Name_________________Date___________Period_____ Num _______ Unit 7 Matter in Motion Review Sheet Directions: Use your notes and worksheets to help you answer the questions. Also, be sure to study all Unit 7 vocabulary words. 7-1 Measuring Motion 1. Give an example of a reference point and explain wh ...
... Name_________________Date___________Period_____ Num _______ Unit 7 Matter in Motion Review Sheet Directions: Use your notes and worksheets to help you answer the questions. Also, be sure to study all Unit 7 vocabulary words. 7-1 Measuring Motion 1. Give an example of a reference point and explain wh ...
Practice - People Server at UNCW
... l. Can the cyclist coast to the top of the hill? If so, how fast will she be moving? If not, then how high will she get? ...
... l. Can the cyclist coast to the top of the hill? If so, how fast will she be moving? If not, then how high will she get? ...
Concept Review and Enrichment
... Just before the play, a running back is motionless because the forces acting on his body are equal and opposite. The force of gravity pulling him toward the ground is opposite and equal to the force of the ground pushing up on him, so he does not move up or down. This balance of forces can be repres ...
... Just before the play, a running back is motionless because the forces acting on his body are equal and opposite. The force of gravity pulling him toward the ground is opposite and equal to the force of the ground pushing up on him, so he does not move up or down. This balance of forces can be repres ...
L05_projectile
... – Still need to fix if not all were correct – Mechanism TBA – I’m trying to figure how to post standards strandings ...
... – Still need to fix if not all were correct – Mechanism TBA – I’m trying to figure how to post standards strandings ...
Motion
... a book is being slid across the table there are 4 forces acting upon the book. The table and gravity are equal so the book does not move up or down. The push of the book acts in one direction and friction acts in the opposite direction The push is a bigger force, so it causes the book to move ...
... a book is being slid across the table there are 4 forces acting upon the book. The table and gravity are equal so the book does not move up or down. The push of the book acts in one direction and friction acts in the opposite direction The push is a bigger force, so it causes the book to move ...
Chapter 3 Notes
... weight(N) = mass x gravity 1. A man has a mass of 75 kg on the Earth. What is his weight? 2. Find the acceleration of gravity on a planet if a person with a mass of 66 kg weighs 646.8 N on that planet. 3. A person weighs 500 N on the Earth. What is the person’s mass? ...
... weight(N) = mass x gravity 1. A man has a mass of 75 kg on the Earth. What is his weight? 2. Find the acceleration of gravity on a planet if a person with a mass of 66 kg weighs 646.8 N on that planet. 3. A person weighs 500 N on the Earth. What is the person’s mass? ...
p250c05
... Centripetal force is the force perpendicular to the velocity of an object moving along a curved path. The centripetal force is directed toward the center of curvature of the path. ...
... Centripetal force is the force perpendicular to the velocity of an object moving along a curved path. The centripetal force is directed toward the center of curvature of the path. ...
