Consider an inclined plane at an angle of 40.0°, with a kinetic coefficient of friction of 0.350 and a static coefficient of friction of 0.450. A block with mass of 50.0 kg is on the incline and initially at rest. A force of 535 N, parallel to the incline, pushes the block a distance of 10.0 m up the incline. Do the following:

a) Determine the speed of the object at the end of this displacement using Newton's Laws of Motion (theoretical v.1).
b) Simulate on IP and determine the % error in the speed v at the end of the displacement (experimental),
c) Repeat the above calculation using the Work-Kinetic Energy Theorem: AKE (theoretical v, 2). Determine the % error in the speed of the object at the end of the displacement.
d) Repeat the calculation again but include gravity by calculating the change in potential energy instead of the work done by gravity. Use: Wnc= ΔKE+ ΔPE (theoretical v. 3). Determine the % error in the speed of the object at the end of the displacement.