An asteroid of mass `m` is approaching earth, initially at a distance `10R_(E)` with speed `v_(i)`. It hits earth with a speed `v_(f)` (`R_(E)` and `M_(E)` are radius and mass of earth),. ThenA. `v_(f)^(2)=v_(i)^(2)+(2Gm)/(R_(E))(1+(1)/(10))`B. `v_(f)^(2)=v_(i)^(2)+(2GM_(E))/(R_(E))(1+(1)/(10))`C. `v_(f)^(2)=v_(i)^(2)+(2GM_(E))/(R_(E))(1-(1)/(10))`D. `v_(f)^(2)=v_(i)^(2)+(2Gm)/(R_(E))(1-(1)/(10))`

An asteroid of mass `m` is approaching earth, initially at a distance

1.	An asteroid of mass `m` is approaching earth, initially at a distance `10R_(E)` with speed `v_(i)`. It hits earth with a speed `v_(f)` (`R_(E)` and `M_(E)` are radius and mass of earth),. ThenA. `v_(f)^(2)=v_(i)^(2)+(2Gm)/(R_(E))(1+(1)/(10))`B. `v_(f)^(2)=v_(i)^(2)+(2GM_(E))/(R_(E))(1+(1)/(10))`C. `v_(f)^(2)=v_(i)^(2)+(2GM_(E))/(R_(E))(1-(1)/(10))`D. `v_(f)^(2)=v_(i)^(2)+(2Gm)/(R_(E))(1-(1)/(10))`
Answer» Correct Answer - C (c ) Initial energy of the asteroid is `E_(i)=K_(i)+U_(i)=(1)/(2)mv_(i)^(2)-(GM_(E)m)/(10R_(E))` Final energy of the asteroid is `E_(f)=(1)/(2)mv_(f)^(2)-(GM_(E)m)/(R_(E))` According to law of conservation of energy, `E_(i)=E_(f)` `(1)/(2)mv_(i)^(2)-(GM_(E)m)/(10R_(E))=(1)/(2)mv_(f)^(2)-(GM_(E)m)/(R_(E))` `v_(f)^(2)-(2GM_(E))/(R_(E))=v_(i)^(2)-(2GM_(E))/(10R_(E))` `v_(f)^(2)=v_(i)^(2)+(2GM_(E))/(R_(E))(1-(1)/(10))`

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