Can you please show all the work, thank you

EH 3' L

AY x spring The image above shows a 5.52 kilogram wooden block being dropped from rest by a student onto a vertical spring mounted into the floor. The base of the wooden block is a distance of 3.15 centimeters above the spring's platform when it is released. When setting up this demonstration the spring's constant was measured and found to be 1730 Newtons of force per meter of displacement from equilibrium. In this scenario our energy system consists of the wooden block, the Earth and the vertical spring. The student initially holding onto the block is not part of our energy system and there are no external forces interacting with our system. In addition, we will approximate the spring as perfectly elastic with no losses to thermal energy. 1.) 2.) 3.) 4.) 5.) 6.) 7.) 8.) 9.) What is the kinetic energy in our energy system at the instant the block is released ? What is the kinetic energy in our energy system at the instant the wooden block makes contact with the spring platform? What is the wooden block's velocity when it makes contact with the spring platform ? What is the change in gravitational potential energy as the wooden block falls from its release point to the height where it first makes contact with the spring platform ? What is the spring potential energy in our energy system at the instant the wooden block makes contact with the spring platform ? What is the gravitational potential energy in our energy system at the instant the wooden block is momentarily brought to rest and the spring is fully compressed ? What is the kinetic energy in our energy system at the instant the wooden block is momentarily brought to rest and the spring is fully compressed ? What is the compression of the spring at the instant the wooden block is momentarily brought to rest and the spring is fully compressed ? What is the potential energy stored in the spring at the instant the wooden block is momentarily brought to rest and the spring is fully compressed ? 10.) What is the height of the wooden block above its maximum compression point before it is released by the student ? 11. ) What is the gravitational potential energy in our system before the block is released ? 12.) What is the total system in our system throughout this scenario ?