I only need part D, thank you! Part CFind the the period of the orbit of each star.Express your answer in terms of G, M, R.4RT = 27.GMSubmitPrevious Answersv CorrectPart DHow much energy would be required to separate the two stars to infinity?Express your answer in terms of G, M, R.?AE = Two identical stars with mass M orbit around their center ofmass. Each orbit is circular and has radius R. so that the twostars are always on opposite sides of the circle.Part AFind the gravitational force of one star on the other.Express your answer in terms of G, M, R.GM?4RF =SubmitPrevious Answersv CorrectPart BFind the orbital speed of each star.Express your answer in terms of G, M, R.GM4Rv =SubmitPrevious Answersv CorrectPart CFind the the period of the orbit of each star.

Answered: Image /qna-images/answer/79c26506-98f7-40f3-b254-a886b0113478.jpg

Answered: Part D How much energy would be…

Part D How much energy would be required to separate the two stars to infinity? Express your answer in terms of G, M, R. ΑΣφ ? AE =

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter7: Gravitation

Section: Chapter Questions

Problem 3STP

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Concept explainers

Proper Length

The theory of special relativity explains the connection between space and time to objects that move in a straight line at a constant speed. The objects move at the speed of light. When an object approaches light speed, its mass is endless and cannot move faster than light. The most crucial postulate of Einstein's special relativity is that the laws of nature do not change in each frame of reference.

Question

I only need part D, thank you!

Part C
Find the the period of the orbit of each star.
Express your answer in terms of G, M, R.
4R
T = 27.
GM
Submit
Previous Answers
v Correct
Part D
How much energy would be required to separate the two stars to infinity?
Express your answer in terms of G, M, R.
?
AE =

Two identical stars with mass M orbit around their center of
mass. Each orbit is circular and has radius R. so that the two
stars are always on opposite sides of the circle.
Part A
Find the gravitational force of one star on the other.
Express your answer in terms of G, M, R.
GM?
4R
F =
Submit
Previous Answers
v Correct
Part B
Find the orbital speed of each star.
Express your answer in terms of G, M, R.
GM
4R
v =
Submit
Previous Answers
v Correct
Part C
Find the the period of the orbit of each star.

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