A child's game consists of a block that attaches to a table with a suction cup, a spring connected to that block, a ball, and a launching ramp. By compressing the spring, the child can launch the ball up the ram p. We will dene the oor to be where y = 0 (Le. where gravitational potential energy is zero). Assume that both kinetic friction and air resistance are negligible here. The spring has a spring constant k = 1000.0 N/m. The spring is compressed a distance 0.040 m in order to launch the ball. The ball has a mass m = 0.055 kg. The ramp raises a height 0.015 m above the table. The top of the table is 1.12 m above the oor. The angle 6 that the ramp makes with the table is 30. I 0.25 points 9 What type(s) of energy does the ball have when the ball is fully compressed in the spring, just before it is released? Select all that apply. Rotational kinetic energy Translational kinetic energy Gravitational potential energy Spring potential energy I 0.25 points How much spring potential energy (in J) does the ball have just before it is released (when the spring is fully compressed)? Type your answer... I 0.25 points 9 What gravitational potential energy (in J) does the ball have just before it is released? Type your answer... I 0.25 points 5? The child releases the ball and allows it to move up the ramp and launch into projectile motion. What total energy (in J) does the ball have just as it launches off the tip of the ramp? Type your