Question 3: (10 marks) Figure below shows a collision between three balls of clay. The three...
Question 3: (10 marks) Figure below shows a collision between three balls of clay. The three hit simultaneously and stick together A. What are the speed and direction of the resulting blob of clay? (7 marks) B. What is the energy lost during this collision? (3 marks) 40 g 3.0 m/s 30 g 2.0 m/s 20 g Page 44
(Figure 1) shows a collision between three balls of clay. The three hit simultaneously and stick together. Assume that m = 55 g and v = 2.1 m/s . Part A- What is the speed of the resulting blob of clay? Part B- What is the movement direction of the resulting blob of clay? 450 4.0 m/s 30 g 12.0 m/s Ó 20g
Review | Constants Periodic Table (Figure 1) shows a collision between three balls of clay. The three hit simultaneously and stick together. Assume that m = 45 g and v = 3.5 m/s Part A What is the speed of the resulting blob of clay? Express your answer with the appropriate units. Figure < 1 of 1 > QJ45 uA 3 ? 4.0 m/s V= Value Units 30 g Submit Request Answer 2.0 m/s 20 g Part B
Figure p9.55 shows a collision between three balls of clay.The three hit simultaneously and stick together. What are the speedand direction of the resulting blob of clay?
I posted my work with it.. not sure where I went wrong if I did 70. IllI Figure P9.70 shows a collision between three balls of clay. The three hit simultaneously and stick together. What are the speed and direction of the resulting blob of clay? 40 g 45° 4.0 m/s 3.0 m/s 30g 2.0 m/s 20 g FIGURE P9.70
HW 5.5. The drawing shows a top-view of a collision between two balls. Ball A has a mass of 0.03 kg and is moving along the positive c-axis at 5.5 m/s. It makes a collision with ball B, which has a mass of 0.05 kg and is initially at rest. The collision is not head-on. After the collision, the two balls fly apart with the angles shown in the drawing below. + 5.5 m/s At rest a) What are the...
Summarize the problem indicating the question to be answered, list the equations used, show all math with appropriate physical units, and indicate your answer. A 5.00 kg ball of clay is moving to the west with a speed of 4.5 m/s, a 2.00 kg ball of clay is moving to the south with a speed of 5.4 m/s. The clay balls collide and stick together. What is the magnitude and direction of the velocity of this larger blob of clay...
A 200 g meter stick has a 50.0 g lump of clay stuck on it at the 10.0 cm mark. It is initially at rest on a level, frictionaless surface, lying along the y-axis with its 50.0 cm mark at the origin. A second 50.0 g lump of clay, initially moving at 1.20 m/s i, collides with the meter stick and sticks to it at the 90.0 cm mark. 1. What is the initial momentum of the system of the...
Problem 10: Two 1.0-kg balls, A and B, move as shown in the figure and collide. During the collision, half the kinetic energy A is lost. After the collision, ball A is going straight in the vA3m/s V- 2 m/s negative y direction. Find A and B's final velocities. Problem 10: Two 1.0-kg balls, A and B, move as shown in the figure and collide. During the collision, half the kinetic energy A is lost. After the collision, ball A...
2. In a completely inelastic collision, a 500 traveling west at 10 m/s. kg car traveling east at 30 m's hit a 2000 kg truck a. At what speed and in what direction will the joined car/truck go after the collision? b. Calculate the kinetic energy of the car before the collision. c. Calculate the kinetic energy of the truck before the collision. d. Calculate the kinetic energy of the joined car and truck together after the collision. e. How...