A car runs east to west and another car B of the same mass runs from west to east at the same path along the equator. A precess the track with a force `N_(1)` and B presses the track with a force `N_(2)`. Then

A train 1 moves from east to west and another train 2 moves from west to east on the equator with equal speeds relative to ground. The ratio of their centripetal accelerations (a_(1))/(a_(2)) relative to centre of earth is:

A proton beam is fired from west to east and an electron beam is fired parallel to it in the same direction. Force on the electron beam will be

A mass m starting from A reaches B of a frictionless track. On reaching B, it pushes the track with a force equal to x times its weight, then the applicable relation is

Two identical trains A and B move with equal speeds on parallel tracks along the equator. A moves from east to west and B moves from west to east. Which train will exert greater force on the track?

Angular speed of rotation of the earth is omega_(0). A train is running along the equator at a speed v from west to east. A very sensitive balance inside the train shows the weight of n object as W_(1). During the return journey when the train is running atsame speed from east to west the balance shows the weight of the object to be W_(2). Weight of the object when the train is at rest was shown to be W_(0) by the balance. Calculate W_(2) – W_(1).

A spy satellite S_(1), travelling above the equator is taking pictures at quick intervals. The satellite is travelling from west to east and is ready with picture around the whole equator in 8 hours. Another similar satellite S_(2), travelling in the same plane is travelling from east to west and is able to take pictures around the whole equator in 6 hours. Find the ratio of radii of the circular paths of the satellite S_(1) and S_(2).

An automobile engine propels a 1000 kg car (A) along a levelled road at a spedd of 36 km//h. Find the power if the opposing frictional force is 100 Now, suppose after travelling a distance of 200 m, this car collides with another stationary car (B) of same mass and comes to rest. Let its engine also stop at the same time. Now car (B) starts moving on the same level road without getting its engine started. Find the speed of the car (B) just after the collision.