Springs & Strings
... spring to twice its equilibrium length? (b) Is the force required to compress the spring to half its length the same as in part (a)? Explain. (a) ...
... spring to twice its equilibrium length? (b) Is the force required to compress the spring to half its length the same as in part (a)? Explain. (a) ...
Lecture_03b
... A force F acts on mass m1 giving acceleration a1. The same force acts on a different mass m2 giving acceleration a2 = 2a1. If m1 and m2 are glued together and the same force F acts on this combination, what is the resulting acceleration? ...
... A force F acts on mass m1 giving acceleration a1. The same force acts on a different mass m2 giving acceleration a2 = 2a1. If m1 and m2 are glued together and the same force F acts on this combination, what is the resulting acceleration? ...
Laws - Home [www.petoskeyschools.org]
... 11) If we double the mass of an object in motion, what would happen to its acceleration? Doubling the mass will divide the acceleration by two 12) If we apply three times the force to an object as the original force applied, what would happen to the object’s acceleration? Multiplying the force by 3 ...
... 11) If we double the mass of an object in motion, what would happen to its acceleration? Doubling the mass will divide the acceleration by two 12) If we apply three times the force to an object as the original force applied, what would happen to the object’s acceleration? Multiplying the force by 3 ...
File
... carousel. Each completes one full circle in the same time period, but the horse on the outside covers more distance than the inside horse does, so the outside horse has a greater tangential speed. ...
... carousel. Each completes one full circle in the same time period, but the horse on the outside covers more distance than the inside horse does, so the outside horse has a greater tangential speed. ...
Lecture 8: Forces & The Laws of Motion
... You are riding on a Ferris wheel moving at constant speed. 1a) At what point is the net force acting on you the greatest? a) the top b) the bottom c) halfway between top and bottom d) the force is the same over the whole motion 1b) Is the net force doing work on you? a) YES b) NO 2) If the mass of t ...
... You are riding on a Ferris wheel moving at constant speed. 1a) At what point is the net force acting on you the greatest? a) the top b) the bottom c) halfway between top and bottom d) the force is the same over the whole motion 1b) Is the net force doing work on you? a) YES b) NO 2) If the mass of t ...
Center of Mass, Angular Momentum
... It always bothered me that if the same impulsive force were applied on the bar between the two masses, i.e. at the CM, the barbell would move at the SAME speed we just calculated for the CM, but without rotation. From energy considerations, it seems that applying the same force in two locations impa ...
... It always bothered me that if the same impulsive force were applied on the bar between the two masses, i.e. at the CM, the barbell would move at the SAME speed we just calculated for the CM, but without rotation. From energy considerations, it seems that applying the same force in two locations impa ...