Two balls moving in opposite directions have velocities v1i,x = 12_m/s and v2i,x = -6.4_m/s. If their masses are m, = 2.9 kg and m, = 5.1_kg, respectively, and if their collision is perfectly elastic, then predict the velocity of each ball following the collision. 8. Vifx = -8.498 m/s -9.357 m/s C. -5.982_m/s -10.93_m/s -7.424_m/s А. D. В. E. -11.46 m/s F. |--/ 9. Vzfx = 10.57_m/s 3.977_m/s 7.413_m/s 6.94_m/s 13.03_m/s А. D. В. E. С. F. 5.872_m/s |--/
Two balls moving in opposite directions have velocities v1i,x = 12_m/s and v2i,x = -6.4_m/s. If their masses are m, = 2.9 kg and m, = 5.1_kg, respectively, and if their collision is perfectly elastic, then predict the velocity of each ball following the collision. 8. Vifx = -8.498 m/s -9.357 m/s C. -5.982_m/s -10.93_m/s -7.424_m/s А. D. В. E. -11.46 m/s F. |--/ 9. Vzfx = 10.57_m/s 3.977_m/s 7.413_m/s 6.94_m/s 13.03_m/s А. D. В. E. С. F. 5.872_m/s |--/
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter6: Momentum And Collisions
Section: Chapter Questions
Problem 8WUE: A car of mass 750 kg traveling at a velocity of 27 m/s in the positive x-direction crashes into the...
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![Two balls moving in opposite directions have velocities v1i,x = 12_m/s and v2i,x = -6.4_m/s. If their
masses are m, = 2.9 kg and m, = 5.1_kg, respectively, and if their collision is perfectly elastic, then
predict the velocity of each ball following the collision.
8.
Vifx =
-8.498 m/s
-9.357 m/s
C.
-5.982_m/s
-10.93_m/s
-7.424_m/s
А.
D.
В.
E.
-11.46 m/s
F.
|--/
9.
Vzfx =
6.94_m/s
13.03_m/s
5.872_m/s
А.
10.57_m/s
3.977.m/s
7.413_m/s
D.
В.
Е.
С.
F.
|--/](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F55d2a763-b60b-4e1a-b985-d4de1f4a8f3b%2F04c3e791-ab5b-446a-9da5-fc3d79d9e0ec%2Fat2afwg_processed.png&w=3840&q=75)
Transcribed Image Text:Two balls moving in opposite directions have velocities v1i,x = 12_m/s and v2i,x = -6.4_m/s. If their
masses are m, = 2.9 kg and m, = 5.1_kg, respectively, and if their collision is perfectly elastic, then
predict the velocity of each ball following the collision.
8.
Vifx =
-8.498 m/s
-9.357 m/s
C.
-5.982_m/s
-10.93_m/s
-7.424_m/s
А.
D.
В.
E.
-11.46 m/s
F.
|--/
9.
Vzfx =
6.94_m/s
13.03_m/s
5.872_m/s
А.
10.57_m/s
3.977.m/s
7.413_m/s
D.
В.
Е.
С.
F.
|--/
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