X llllllll A block of mass M = 5.0 kg is hanging at equilibrium from an ideal spring with spring constant k = 250 % . (a) On the dot below, which represents the block, draw and label the forces (not components) that act on the block. Each force must be represented by a distinct arrow starting on, and pointing away from, the dot, BIQXZXZSCQEEEEIEJ 0 / 10000 Word Limit The block is pulled 0.15m below its equilibrium position and released from rest, (b) Determine the maximum displacement of the mass from equilibrium BIQXZXZOCQEEEEEI (c) Calculate the elastic potential energy of spring just as the block is being released. BIUXXOCOEE 0 / 10000 Word Limit (d) Calculate the maximum speed the block will have during its motion. 0 / 10000 Word Limit (e) Calculate the displacement of the block from equilibrium when the kinetic energy of the block is equal to the elastic potential energy of the spring. BIU XXZOCQ : 30The block is brought to rest at equilibrium. The block is then pulled down half the original distance (f) Will the new period for the motion of the block be greater than. less than, or equal to the original period for the motion of the block? _ Greater than _ Less than _ Equal to Justify your answer. BlyxzszCnEE l|| IEI Bookmark 0 / 10000 Word Limit X llllllll & s The rst block is again brought to rest at equilibrium. An identical block is launched up into the rst block' The new block is moving with a speed of on 2 5.0 block. when it collides with and sticks to the original (9) Calculate the maximum compression of the spring after the collision of the two blocks.