AP Physics Chapter 5-8 Key Equations and Ideas Forces (pulleys
... displacement, and it does negative work when it has a vector component in the opposite direction. The force does zero work when it is perpendicular to the displacement. ...
... displacement, and it does negative work when it has a vector component in the opposite direction. The force does zero work when it is perpendicular to the displacement. ...
Forces and The Laws of Motion
... • Bodies at rest will stay at rest and bodies in motion will stay in straight-line motion at a constant speed if no net force is present ...
... • Bodies at rest will stay at rest and bodies in motion will stay in straight-line motion at a constant speed if no net force is present ...
P2 Knowledge Powerpoint – WIP Part 1
... When an object is moved up, its gravitational potential energy increases. When an object is moved down, its gravitational potential energy decreases Use this formula: Change in gradational potential energy (J) =weight (N) x change in height(m) Use this formula: Change in gravational otential energy ...
... When an object is moved up, its gravitational potential energy increases. When an object is moved down, its gravitational potential energy decreases Use this formula: Change in gradational potential energy (J) =weight (N) x change in height(m) Use this formula: Change in gravational otential energy ...
Test 1 Sample
... a. has the same magnitude as the weight of the box. b. is greater than the weight of the box. c. has the same magnitude as the total force that resists the motion. d. is greater than the total force that resists the motion of the box. 5. A sprinter runs 13 meters from rest in 4.2 seconds in a straig ...
... a. has the same magnitude as the weight of the box. b. is greater than the weight of the box. c. has the same magnitude as the total force that resists the motion. d. is greater than the total force that resists the motion of the box. 5. A sprinter runs 13 meters from rest in 4.2 seconds in a straig ...
Honors Physics Unit 5 Notes
... entire rigid object as well as the individual particles in the object ...
... entire rigid object as well as the individual particles in the object ...
SC81 Physics Curriculum Map 2010/2011 Revised 7/29/2010
... (Ability to do what?) learn?) S5 C2 PO 4 force mass weight net force acceleration force body diagrams ...
... (Ability to do what?) learn?) S5 C2 PO 4 force mass weight net force acceleration force body diagrams ...
ESS154_200C_Lecture7_W2016
... dvx dt = ±Wvy with the upper sign corresponding to a positively charged particle. • Assuming vx = -v^ sin (Wt ), then ...
... dvx dt = ±Wvy with the upper sign corresponding to a positively charged particle. • Assuming vx = -v^ sin (Wt ), then ...
Monday, Oct. 6, 2008
... observations for a long time. The data people collected, however, have not been explained until Newton has discovered the law of gravitation. Every particle in the Universe attracts every other particle with a force that is directly proportional to the product of their masses and inversely proportio ...
... observations for a long time. The data people collected, however, have not been explained until Newton has discovered the law of gravitation. Every particle in the Universe attracts every other particle with a force that is directly proportional to the product of their masses and inversely proportio ...
Sears_690_Content Sets_complete - Physics
... 5.1e An object in free fall accelerates due to the force of gravity.* Friction and other forces cause the actual motion of a falling object to deviate from its theoretical motion. (Note: Initial velocities of objects in free fall may be in any direction.) Set #3 5.1a Measured quantities can be class ...
... 5.1e An object in free fall accelerates due to the force of gravity.* Friction and other forces cause the actual motion of a falling object to deviate from its theoretical motion. (Note: Initial velocities of objects in free fall may be in any direction.) Set #3 5.1a Measured quantities can be class ...
Newton`s Laws…Conceptually
... 9. When you compress a sponge, which quantity changes: mass, inertia, volume, or weight? 10. What is the cause of friction, and in what direction does it act with respect to the motion of a sliding object? 11. All other things being equal, why does a heavy skydiver have a terminal speed greater than ...
... 9. When you compress a sponge, which quantity changes: mass, inertia, volume, or weight? 10. What is the cause of friction, and in what direction does it act with respect to the motion of a sliding object? 11. All other things being equal, why does a heavy skydiver have a terminal speed greater than ...
Review - Worth County Schools
... Momentum • A measure of how hard it is to stop a moving object. • Related to both mass and velocity. • Possessed by all moving objects. ...
... Momentum • A measure of how hard it is to stop a moving object. • Related to both mass and velocity. • Possessed by all moving objects. ...
Newton`s Laws Study Guide
... 25. What is the mass of the object represented in the following graph? ...
... 25. What is the mass of the object represented in the following graph? ...
Final 2
... 28. When a star collapses after using up its hydrogen fuel, it's radius may shrink by a factor of about 40,000 (4x10 4). Assume the star is a spinning sphere whose rotational inertia is I = (2/5)MR 2 and whose mass does not change during the collapse. What is the ratio of the final to the original a ...
... 28. When a star collapses after using up its hydrogen fuel, it's radius may shrink by a factor of about 40,000 (4x10 4). Assume the star is a spinning sphere whose rotational inertia is I = (2/5)MR 2 and whose mass does not change during the collapse. What is the ratio of the final to the original a ...