A community for students. Sign up today!
Here's the question you clicked on:
 0 viewing
 3 years ago
no message can be delivered at speeds greater than or equal to the speed of light in a perfect vacuum. That leads one to believe that this hypothetical binary system is emitting gravitational radiation. The energy associated with this radiation has to come from somewhere, since there is no such thing as a free lunch when it comes to massenergy considerations. A very likely candidate for that energy source is the kinetic energy of the binary system. Its kinetic energy gradually decreases, causing the black holes to approach each other. This, in turn, gradually decreases the rotational per
 3 years ago
no message can be delivered at speeds greater than or equal to the speed of light in a perfect vacuum. That leads one to believe that this hypothetical binary system is emitting gravitational radiation. The energy associated with this radiation has to come from somewhere, since there is no such thing as a free lunch when it comes to massenergy considerations. A very likely candidate for that energy source is the kinetic energy of the binary system. Its kinetic energy gradually decreases, causing the black holes to approach each other. This, in turn, gradually decreases the rotational per

This Question is Closed
Ask your own question
Ask a QuestionFind more explanations on OpenStudy
Your question is ready. Sign up for free to start getting answers.
spraguer
(Moderator)
5
→ View Detailed Profile
is replying to Can someone tell me what button the professor is hitting...
23
 Teamwork 19 Teammate
 Problem Solving 19 Hero
 Engagement 19 Mad Hatter
 You have blocked this person.
 ✔ You're a fan Checking fan status...
Thanks for being so helpful in mathematics. If you are getting quality help, make sure you spread the word about OpenStudy.