3. Energy of a Vertical Projectile. A rocket is launched from position A with vertical projectilemotion. It travels the path indicated by the dashed line. It impacts the ground at position H. Choosethe best answer that describes the energy relationship of the rocket.13. At Position AA. TOT E = 100% GPE + 0 KEB. TOT E=0GPE + 100 % KEC. TOT E- 50% GPE + 50% KED. GPE > KEE. GPE KEE. GPE < KE15. At Position CA. TOT E = 100% GPE+0 KEB. TOT E =0GPE + 100 % KEC. TOT E = 50% GPE + 50% KED. GPE > KEE. GPE < KE16. At Position DA. TOT E= 100% GPE + 0 KEB. TOT E =0GPE + 100 % KEC. TOT E = 50% GPE + 50% KED. GPE > KEE. GPE < KE17. At Position EA. TOT E = 100% GPE + 0 KEB. TOT E =0GPE + 100 % KEC. TOT E = 50% GPE + 50% KED. GPE > KEE. GPE < KE18. At Position FA. TOT E = 100% GPE + 0 KEB. TOT E -0GPE + 100 % KEC. TOT E- 50% GPE + 50% KED. GPE > KEE. GPE < KE19. At Position GA. 100% GPE + 0 KEB. O GPE + 100 % KEC. 50% GPE + 50% KED. GPE > KEE. GPE < KEBOLIVEWORKSHEETS

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3. Energy of a Vertical Projectile. A rocket is launched from position A with vertical projectile motion. It travels the path indicated by the dashed line. It impacts the ground at position H. Choose the best answer that describes the energy relationship of the rocket.

3. Energy of a Vertical Projectile. A rocket is launched from position A with vertical projectile motion. It travels the path indicated by the dashed line. It impacts the ground at position H. Choose the best answer that describes the energy relationship of the rocket.

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter7: Work, Energy, And Energy Resources

Section: Chapter Questions

Problem 64PE: Integrated Concepts (a) What force must be supplied by an elevator cable to produce an acceleration...

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Question

3. Energy of a Vertical Projectile. A rocket is launched from position A with vertical projectile
motion. It travels the path indicated by the dashed line. It impacts the ground at position H. Choose
the best answer that describes the energy relationship of the rocket.
13. At Position A
A. TOT E = 100% GPE + 0 KE
B. TOT E=0GPE + 100 % KE
C. TOT E- 50% GPE + 50% KE
D. GPE > KE
E. GPE<KE
14. At Position B
A. TOT E = 100% GPE +0 KE
B. TOT E=0GPE + 100 % KE
C. TOT E - 50% GPE + 50% KE
D. GPE > KE
E. GPE < KE
15. At Position C
A. TOT E = 100% GPE+0 KE
B. TOT E =0GPE + 100 % KE
C. TOT E = 50% GPE + 50% KE
D. GPE > KE
E. GPE < KE
16. At Position D
A. TOT E= 100% GPE + 0 KE
B. TOT E =0GPE + 100 % KE
C. TOT E = 50% GPE + 50% KE
D. GPE > KE
E. GPE < KE
17. At Position E
A. TOT E = 100% GPE + 0 KE
B. TOT E =0GPE + 100 % KE
C. TOT E = 50% GPE + 50% KE
D. GPE > KE
E. GPE < KE
18. At Position F
A. TOT E = 100% GPE + 0 KE
B. TOT E -0GPE + 100 % KE
C. TOT E- 50% GPE + 50% KE
D. GPE > KE
E. GPE < KE
19. At Position G
A. 100% GPE + 0 KE
B. O GPE + 100 % KE
C. 50% GPE + 50% KE
D. GPE > KE
E. GPE < KE
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