Kinetic Energy and Work - UCF College of Sciences
... Block stationary before and after the displacement: Wa= -Ws The work done by the applied force displacing the block is the negative of the work done by the spring force. ...
... Block stationary before and after the displacement: Wa= -Ws The work done by the applied force displacing the block is the negative of the work done by the spring force. ...
Energy and Work notes from class 16-17
... (2) The work done by a C.F. depends only on the start and end position of the object (being worked on), not the path from start to finish. Give two examples of conservative forces. Force of gravity AND Force of a spring The work done by gravity/spring is the EXACT SAME as the potential energy equati ...
... (2) The work done by a C.F. depends only on the start and end position of the object (being worked on), not the path from start to finish. Give two examples of conservative forces. Force of gravity AND Force of a spring The work done by gravity/spring is the EXACT SAME as the potential energy equati ...
Kinetic Energy and Work
... Block stationary before and after the displacement: Wa= -Ws The work done by the applied force displacing the block is the negative of the work done by the spring force. ...
... Block stationary before and after the displacement: Wa= -Ws The work done by the applied force displacing the block is the negative of the work done by the spring force. ...
Section 5.1 Free Undamped Motion
... By Hooke’s Law, the restoring force exerted by a spring when it is stretched or compressed is proportional to the distance x that it is stretched or compressed. That is: ...
... By Hooke’s Law, the restoring force exerted by a spring when it is stretched or compressed is proportional to the distance x that it is stretched or compressed. That is: ...
Lab 35 Linear Impulse and Momentum
... 2. Measure the height through which the weight will fall. Measure from the top of the upright rod to the top of the weight as it sits on the upper cylinder. See Figure 4. Record this distance in meters as H in Data Table 1. 3. Raise the weight so it is flush with the top of the rod. Now release the ...
... 2. Measure the height through which the weight will fall. Measure from the top of the upright rod to the top of the weight as it sits on the upper cylinder. See Figure 4. Record this distance in meters as H in Data Table 1. 3. Raise the weight so it is flush with the top of the rod. Now release the ...
