Example: A 1.03.19 block slides down a frictionless incline from rest. When it reaches the bottom, the block further moves along a surface with friction (pin 2 0.4} for East before it hits a spring with spring constant k = IUDN / m. 92.6.54 Breaking it down: The entire motion consists of three dierent parts [1} block sliding down frictionless surface [2} block sliding along surface with friction before hitting the spring [3] block sliding along frictionless surface while compressing the spring Questions: Q1} Set up Work-Energy Theorem for each part separately. Q2) Following the setup in Q1, determine the maximum compression $5: in the spring when the block comes to an instantaneous rest. Q3} Alternatively? set up Work-Energy Theorem for all three parts together. Q4} Following the setup in Q3, determine the maximum compression ha: in the spring when the block comes to an instantaneous rest