The minimum and maximum distances of a s...

The minimum and maximum distances of a satellite from the center of the earth are `2R` and `4R` respectively, where `R` is the radius of earth and `M` is the mass of the earth . Find
(a) its minimum and maximum speeds,
(b) radius of curvature at the point of minimum distance.

`sqrt((8R)/3)`

`sqrt((5R)/3)`

`sqrt((4R)/3)`

`sqrt((7R)/3)`

Text Solution

Verified by Experts

The correct Answer is:

Applying the principle of conservation of angular momentum,
`mv_(1)(2R)=mv_(2)(4R)`
`v_(1)=2v_(2)`……i
From conservation of energy
`1/2mv_(1)^(2)-(GMm)/(2R)=1/2mv_(2)^(2)-(GMm)/(4R)`……….ii
Solving eqn i and ii we get
`v_(2)=sqrt((GM)/(6R)), v_(1)=sqrt((2GM)/(3R))`
If `r` is the radius of curvature at point `A`.

`(mv_(1)^(2))/r=(GMm)/((2R)^(2))`
`r=(4v_(1)^(2))/(GM)=(8R)/3` (putting value of `v_(1)`)

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The minimum and maximum distances of a satellite from the center of the earth are `2R` and `4R` respectively, where `R` is the radius of earth and `M` is the mass of the earth . Find (a) its minimum and maximum speeds, (b) radius of curvature at the point of minimum distance.

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CENGAGE PHYSICS-GRAVITATION-Linked Comprehension

The minimum and maximum distances of a satellite from the center of the earth are `2R` and `4R` respectively, where `R` is the radius of earth and `M` is the mass of the earth . Find
(a) its minimum and maximum speeds,
(b) radius of curvature at the point of minimum distance.