A 2.0 kg object moving 5.0 m/s collides and sticks to an 8.0 kg object initially at rest. Determine the kinetic energy lost by the system as a result of this of this collision
A 2.0 kg object moving 5.0 m/s collides and sticks to an 8.0 kg object initially...
Problem 5A 2-kg object, moving at 1 m/s, collides with a 1-kg object that is initially at rest. Assume they form an isolated system.4.5. PROBLEMS (a) What is the initial kinetic energy of the system? How much of this is center of mass energy,and how much is convertible? (b) What is the maximum amount of kinetic energy that could be“lost” (converted to other forms of energy) in this collision? (c) If 60% of the amount you calculated in part (b)...
A 2.0 kg ball moving east with a velocity of 5.0 m/s collides with a 8.0 kg ball moving west with velocity 2.0 m/s. After collision, the ball of mass 2.0 kg moves with a velocity of 2.0 m/s towards east, what is the velocity of the second ball?
A 4.00 kg object traveling at 3.00 m/s collides with a 3.00 kg object moving in the opposite direction. After the collision both objects are at rest. How much kinetic energy was lost in the collision?
An 4.7-kg object moving at 12.2 m/s catches up and collides with an 22.3-kg object moving at 2.1 m/s in the same direction. After the collision the 4.7-kg object is observed to be moving in the opposite direction with the speed of 2.6 m/s. How much kinetic energy was lost in this system?
A 2.0-kg mass moving at 5.0 m/s suddenly collides head-on with a 3.0-kg mass at rest. If the collision is perfectly inelastic, what is the speed of the masses just after the collision? 2.5 m/s 10 m/s 2.0 m/s 0 m/s, since the collision is inelastic
9. A 2-kg mass moving to the right at 5m/s collides with and sticks to a 1-kemas to the left at 4 m/s a. Determine the final velocity of the combined masses. Emizeme 30=6 mivem V2 = v= 2 m/s (2)(5) H1) (-4):308 10-4 =3v b. Calculate the initial kinetic energy of the two mass system c. Calculate the final kinetic energy of the two mass system. d. Calculate how much mechanical energy was lost in the collision. Where did...
A 5.0 kg object with a speed of 4.0 m/s collides head-on with a 10 kg object moving toward it with a speed of 5.0 m/s. The 10 kg object stops after the collision. a) What is the post collision speed of the 5.0 kg object? b) Is the collision elastic? c) What is conserved?
A 4.5-kg block moving at 2.0 m/s west on a frictionless surface collides totally inelastically with a second 1.0-kg block traveling east at 2.0m/s. a) Determine the final velocity of the blocks. b)Determine the kinetic energy of the first block before the collision. c)Determine the kinetic energy of the second block before the collision. d)Determine the kinetic energy of the first block after the collision. e)Determine the kinetic energy of the second block after the collision.
A 3.0-kg object moving 8.0 m/s in the positive x direction has a one-dimensional elastic collision with an object (mass = M) initially at rest. After the collision, the object of unknown mass has a velocity of 6.0 m/s in the positive x direction. What is M? a. 6.0 kg b.5.0 kg c. 4.2 kg d. 7.5 kg e. 8.0 kg
26. An object of mass 4 kg moving with a speed of 25 m/s to the right collides with an object of mass 5 kg at rest. If the collision is completely inelastic, calculate the kinetic energy lost during the collision. (1 point) A. 0-375.524 J B. -1056.849 J C. -1285.67 J D. -694.444 J E. -479.985 J