A 5 kg cart rolling to the right at 9 m/s runs into a 9 kg cart rolling to the left. After the collision, both carts ar...
A 5 kg cart rolling to the right at 9 m/s runs into a 9 kg cart rolling to the left. After the collision, both carts are stationary.
What was the original speed of the 9 kg cart?
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A 5 kg cart rolling to the right at 9 m/s runs into a 9 kg cart rolling to the left. After the collision, both carts ar...
A 5 kg cart rolling to the right at 7 m/s runs into a 7 kg...
A 5 kg cart rolling to the right at 7 m/s runs into a 7 kg cart rolling to the left. After the collision, both carts are stationary. Part A What was the original speed of the 7 kg cart?
Two carts are rolling to the right along the same level track. Cart 1, with a...
Two carts are rolling to the right along the same level track. Cart 1, with a mass m1 = 3.4 kg, is in the rear, rolling at a speed of 6.2 m/s and catching up to cart 2, which is rolling at a speed of 3.2 m/s. Choose signs carefully; only speeds are given. a) Cart 1 overtakes and collides with cart 2, sticking to it (both have Velcro pads). Afterward, they both continue rolling right, now at a speed...
Two carts are on an air track (no friction). The first cart, with a mass of...
Two carts are on an air track (no friction). The first cart, with a mass of 1.0 kg, is traveling at 1.0 m/s towards a second stationary cart, of mass 0.7 kg. Both carts have Velcro bumpers and attach to each other after the collision. What is the final speed of both carts after the collision? (5 marks)
A 500 kg cart is rolling to the right at 3.50 m/s. A 70.0 kg man...
A 500 kg cart is rolling to the right at 3.50 m/s. A 70.0 kg man is standing on the right end of the cart. What is the speed of the cart if the man suddenly starts running to the left with a speed of 10.0 m/s relative to the cart? Express your answer with the appropriate units.
A 5.0-kg carl (cart 1) rolling cast on a level, frictionless track at 18.0 m/s, collides...
A 5.0-kg carl (cart 1) rolling cast on a level, frictionless track at 18.0 m/s, collides with a stationary 4.0-kg cart (cart 2). After the collision, cart 1 is still rolling cast, but now at a speed of 2.0 m/s. (a) Assuming the total momentum of the two-cart system is conserved, calculate the final velocity of the second cart. (b) Before the collision, the system's total kinetic energy was 810 J. Calculate the total kinetic energy of the two-cart system...
Please answer #2 and #3 Question 2 Two carts with m 1 kg collide and then...
Please answer #2 and #3
Question 2 Two carts with m 1 kg collide and then stick together. The collision is completely inelastic. 2m 5 m/s a. What is the total impulse applied to the left cart? b. What is the total impulse applied to the right cart? c. What is the total impulse applied to the system of both carts? d. What is the change in the kinetic energy of the left cart? What is the change in the...
Cart 1 Cart 2 Cart 1 Cart 2 no m/s LO After Collision Before Collision Two...
Cart 1 Cart 2 Cart 1 Cart 2 no m/s LO After Collision Before Collision Two lab carts have the same mass and are free to move on a horizontal track. The carts' wheels have negligible mass. Cart 1 travels to the right at 1.0 m/s and collides with cart 2, which is initially at rest, as shown at left above. Cart 2 has a compressed spring-loaded plunger with a non-negligible amount of stored energy. During the collision, the spring-loaded...
You have two carts labeled A and B as shown in the figure above. Cart A...
You have two carts labeled A and B as shown in the figure above. Cart A is twice the mass of cart B and is moving with a velocity of 5 m/s towards cart B. Cart Bis stationary. The magnitude of the total linear momentum of the system before the collision is 50 kg m/s. After the collision, both the carts stick and move together. What is the magnitude of the final velocity of the system? VA=5 m/s Vp=0 А...
A 3 000 kg truck runs into the rear of a 1 000 kg car that was stationary. The truck and car are locker together after the collision and move with speed 9 m/s
7. A 3 000 kg truck runs into the rear of a 1 000 kg car that was stationary. The truck and car are locker together after the collision and move with speed 9 m/s. What was the speed of the truck before the collision? 8. In the previous question determine if the collision was an elastic collision.
the magnitude of total linear momentum of the system before collision is 50 kg m/s. after...
the magnitude of total linear momentum of the system before
collision is 50 kg m/s. after the collision both carys stick and
move together. what js the magnitude of the final velocity
32 +00421 32.22 0.0421 Question 17 You have two carts labeled A and B as shown in the figure above. Cart Ais twice the mass of cart Band is moving with a velocity of Swatowards cart B. Cart Bis stationary. The magnitude of the stick and move together....
Two carts are on an air track (no friction). The first cart, with a mass of 1.0 kg, is traveling at 1.0 m/s towards a second stationary cart, of mass 0.7 kg. Both carts have Velcro bumpers and attach to each other after the collision. What is the final speed of both carts after the collision? (5 marks)
A 5.0-kg carl (cart 1) rolling cast on a level, frictionless track at 18.0 m/s, collides with a stationary 4.0-kg cart (cart 2). After the collision, cart 1 is still rolling cast, but now at a speed of 2.0 m/s. (a) Assuming the total momentum of the two-cart system is conserved, calculate the final velocity of the second cart. (b) Before the collision, the system's total kinetic energy was 810 J. Calculate the total kinetic energy of the two-cart system...
Please answer #2 and #3
Question 2 Two carts with m 1 kg collide and then stick together. The collision is completely inelastic. 2m 5 m/s a. What is the total impulse applied to the left cart? b. What is the total impulse applied to the right cart? c. What is the total impulse applied to the system of both carts? d. What is the change in the kinetic energy of the left cart? What is the change in the...
Cart 1 Cart 2 Cart 1 Cart 2 no m/s LO After Collision Before Collision Two lab carts have the same mass and are free to move on a horizontal track. The carts' wheels have negligible mass. Cart 1 travels to the right at 1.0 m/s and collides with cart 2, which is initially at rest, as shown at left above. Cart 2 has a compressed spring-loaded plunger with a non-negligible amount of stored energy. During the collision, the spring-loaded...
You have two carts labeled A and B as shown in the figure above. Cart A is twice the mass of cart B and is moving with a velocity of 5 m/s towards cart B. Cart Bis stationary. The magnitude of the total linear momentum of the system before the collision is 50 kg m/s. After the collision, both the carts stick and move together. What is the magnitude of the final velocity of the system? VA=5 m/s Vp=0 А...
the magnitude of total linear momentum of the system before
collision is 50 kg m/s. after the collision both carys stick and
move together. what js the magnitude of the final velocity
32 +00421 32.22 0.0421 Question 17 You have two carts labeled A and B as shown in the figure above. Cart Ais twice the mass of cart Band is moving with a velocity of Swatowards cart B. Cart Bis stationary. The magnitude of the stick and move together....
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