m h M A ball of mass m is attached to a string of length L = 1.20 m. The ball is released from rest when it is a height h above the equilibrium point. The ball then swings down and, when the string is perfectly vertical, the ball collides with a block of mass M. The block is initially at rest on a frictionless horizontal surface. Use g = 10.0 m/s2. Open in RPart (a) Homework . Unanswered . Due Oct 24th, 11:59 PM The mass of the ball is m = 1.50 kg and the height h = 32.0 cm. Calculate the speed of the ball just before the ball collides with the block. m/s Type your numeric answer and submit Unanswered . 5 attempts left Submit Part (b) Homework . Unanswered . Due Oct 24th, 11:59 PM Calculate the tension in the string just before the ball collides with the block. N Type your numeric answer and submit Open inPart (c) Homework . Unanswered . Due Oct 24th, 11:59 PM Immediately after the collision, the ball is moving to the left with half the speed it had just before the collision. If the block has a mass of 6.00 kg, what is the speed of the block after the collision? m/s Type your numeric answer and submit Unanswered . 5 attempts left Submit