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A Body moving radially away from a plane...

A Body moving radially away from a planet of mas M, when at distance r from planet, explodes in such a way that two of its many fragments move in mutually prependicular circular orbits around the planet what will be
(i). Then velocity in circular orbits?
(ii). Maximum distance between the two fragments before collision and
(iii). Magnitude of their relative velocity just before they collide?

Text Solution

Verified by Experts

The correct Answer is:
(i). `sqrt((GM)/(r))`
(ii). `rsqrt(2)`
(iii). `sqrt((2GM)/(r))`

(i). Orbital velocity of each particle `v_(0)=sqrt((GM)/(r))`
(ii). Maximum separation before collision `=sqrt(2)r`
(iii). Relative velocity before collision.
`V_("Red")=sqrt(v_(1)^(2)+v_(2)^(2))=sqrt((2GM)/(r))`
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