Could someone please only do part C

As a concerned citizen, you have volunteered to serve on a committee investigating injuries to High School students participating in sports. Currently your committee is investigating the high incidence of arm injuries in cricket bowlers. You think that you've developed a clever way to determine the force of tension in a player's arm while bowling. You're going to assume that the ball is moving in uniform circular motion while being thrown by the bowler, so even though it's not released while at the top of its circular path, you assume it is moving at the same speed at those two points. You measure the length of the bowler's arm to be 78 cm. They release the ball from a height of 2.04 m above the ground. You've set up a slow-motion camera to capture video of the batter hitting the ball. You then use video analysis software to measure the velocities of the ball and bat before and after being hit. Before hitting the ball, the bat is moving at 16.7 m/s, at an angle of 11 degrees above horizontal. Immediately after hitting the ball, it is moving at 12.9 m/s, in the same direction. The bat contacts the ball when the ball is 42 cm above the ground. With the way the camera is set up, you can't get a clear image of the ball before being hit, but you are able to measure that after being hit it is moving at 20.1 m/s, at an angle of 39 degrees above horizontal. You've measured the mass of the ball to be 0.16 kg, and the bat has a mass of 1.19 kg. In a previous experiment, you determined that the average amount of energy the ball loses to the environment on its way from the bowler to the batter (due to interactions with the air and the ground when bouncing) is 36 J. ) What is the speed of the ball just before striking the bat? b) At what speed is the ball moving when released by the bowler? (hint: use an energy analysis) C) What is the force of tension in the bowler's arm if they release the ball at the top of their swing? 6 LM3 C: Word Representation 1. What type of collision occurs between the ball and bat? Provide evidence to support your choice. [1 LM3] 2. Describe the state of motion of the ball after it is hit by the bat. [1 LM3] 3. Describe the state of force on the ball after it is hit by the bat. [1 LM3] 4. What other factors might be involved that we have decided to ignore? [1 LM3] 5. What would you need to know if you wanted to use kinematics to find v1? [2 LM3]