Review | Constants When it is 133 m above the ground, a rocket traveling vertically upward at a constant 8.20 m/s relative to the ground launches a secondary rocket at a speed of 12.2 m/s at an angle of 59.0° above the horizontal, both quantities being measured by an observer sitting in the rocket. Air resistance should be ignored. Part A Just as the secondary rocket is launched, what are the horizontal and vertical components of its velocity relative to the astronaut sitting in the rocket? Enter your answers numerically separated by a comma. ν0 ΑΣφ 6.28,8.20 m/s Previous Answers Request Answer Submit

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I am really confused on how to do this problem. I had gotten 6.28,8.20  as my answer,but it was wrong.

Review | Constants
When it is 133 m above the ground, a rocket
traveling vertically upward at a constant 8.20 m/s
relative to the ground launches a secondary rocket
at a speed of 12.2 m/s at an angle of 59.0° above
the horizontal, both quantities being measured by
an observer sitting in the rocket. Air resistance
should be ignored.
Part A
Just as the secondary rocket is launched, what are the horizontal and vertical components of its
velocity relative to the astronaut sitting in the rocket?
Enter your answers numerically separated by a comma.
ν0 ΑΣφ
6.28,8.20
m/s
Previous Answers Request Answer
Submit
Transcribed Image Text:Review | Constants When it is 133 m above the ground, a rocket traveling vertically upward at a constant 8.20 m/s relative to the ground launches a secondary rocket at a speed of 12.2 m/s at an angle of 59.0° above the horizontal, both quantities being measured by an observer sitting in the rocket. Air resistance should be ignored. Part A Just as the secondary rocket is launched, what are the horizontal and vertical components of its velocity relative to the astronaut sitting in the rocket? Enter your answers numerically separated by a comma. ν0 ΑΣφ 6.28,8.20 m/s Previous Answers Request Answer Submit
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