A bullet with a mass m = 1.63 g is shot at a large foam ball with a mass M = 0.980 kg. The ball is hung on the end of a long, light string with length L = 7.37 m as shown in the figure. The ball on the string is free to move and can be modelled as a simple pendulum. When the bullet is shot at the ball, it becomes completely embedded in the ball. The ball then rises to a maximum height of h = 0.105 m above its initial position. Assume that air resistance is negligible in this question. Part 1) Select all the statements below that are true as the bullet embeds in the ball: C] Non-conservative forces are doing no work as the bullet embeds in the ball. C] External forces are negligible while the bullet embeds in the ball. B When the bullet embeds in the ball, momentum is conserved. [3 When the bullet embeds in the ball, mechanical energy is conserved. Select all the statements below that are true as the ball with the embedded bullet rises to maximum height: [3 External forces are negligible while the ball rises. C] When the ball rises, momentum is conserved. C] Nonconservative forces are doing no work as the ball rises. [3 When the ball rises, mechanical energy is conserved. Part 2) What is the speed of the bullet and block just after the bullet embeds in the block? \"bullet and block = m/s Part 3) What is the speed of the bullet just before it hits the block? Ubullel = m/s