141292 In the following velocity-time graph, the distance travelled by the body, in metre is

141293 A body A starts from rest with an acceleration \(a_{1}\). After \(2 \mathrm{~s}\) another body \(B\) starts from rest with an acceleration \(a_{2}\). If they travel equal distance in the 5th second after the start of \(A\).
\(a_{1}: a_{2}\) is equal to

141294 A body falling for \(2 \mathrm{~s}\) covers a distance \(\mathrm{s}\) which is equal to that covered in next \(1 \mathrm{~s}\). If \(\mathrm{g}=10 \mathrm{~ms}^{-2}\), the distance \(s\) is

141296 The reaction time for a car diver is \(0.9 \mathrm{~s}\). If the car travelling initially with \(36 \mathrm{~km} \mathrm{~h}^{-1}\) is stopped by the driver after observing a signal by the deceleration of \(5 \mathrm{~ms}^{-2}\), the total distance travelled by the car before coming to rest is

141292 In the following velocity-time graph, the distance travelled by the body, in metre is

141293 A body A starts from rest with an acceleration \(a_{1}\). After \(2 \mathrm{~s}\) another body \(B\) starts from rest with an acceleration \(a_{2}\). If they travel equal distance in the 5th second after the start of \(A\).
\(a_{1}: a_{2}\) is equal to

141294 A body falling for \(2 \mathrm{~s}\) covers a distance \(\mathrm{s}\) which is equal to that covered in next \(1 \mathrm{~s}\). If \(\mathrm{g}=10 \mathrm{~ms}^{-2}\), the distance \(s\) is

141296 The reaction time for a car diver is \(0.9 \mathrm{~s}\). If the car travelling initially with \(36 \mathrm{~km} \mathrm{~h}^{-1}\) is stopped by the driver after observing a signal by the deceleration of \(5 \mathrm{~ms}^{-2}\), the total distance travelled by the car before coming to rest is

141292 In the following velocity-time graph, the distance travelled by the body, in metre is

141293 A body A starts from rest with an acceleration \(a_{1}\). After \(2 \mathrm{~s}\) another body \(B\) starts from rest with an acceleration \(a_{2}\). If they travel equal distance in the 5th second after the start of \(A\).
\(a_{1}: a_{2}\) is equal to

141294 A body falling for \(2 \mathrm{~s}\) covers a distance \(\mathrm{s}\) which is equal to that covered in next \(1 \mathrm{~s}\). If \(\mathrm{g}=10 \mathrm{~ms}^{-2}\), the distance \(s\) is

141296 The reaction time for a car diver is \(0.9 \mathrm{~s}\). If the car travelling initially with \(36 \mathrm{~km} \mathrm{~h}^{-1}\) is stopped by the driver after observing a signal by the deceleration of \(5 \mathrm{~ms}^{-2}\), the total distance travelled by the car before coming to rest is

141292 In the following velocity-time graph, the distance travelled by the body, in metre is

141293 A body A starts from rest with an acceleration \(a_{1}\). After \(2 \mathrm{~s}\) another body \(B\) starts from rest with an acceleration \(a_{2}\). If they travel equal distance in the 5th second after the start of \(A\).
\(a_{1}: a_{2}\) is equal to

141294 A body falling for \(2 \mathrm{~s}\) covers a distance \(\mathrm{s}\) which is equal to that covered in next \(1 \mathrm{~s}\). If \(\mathrm{g}=10 \mathrm{~ms}^{-2}\), the distance \(s\) is

141296 The reaction time for a car diver is \(0.9 \mathrm{~s}\). If the car travelling initially with \(36 \mathrm{~km} \mathrm{~h}^{-1}\) is stopped by the driver after observing a signal by the deceleration of \(5 \mathrm{~ms}^{-2}\), the total distance travelled by the car before coming to rest is