A train is moving towards East and a car is along North, both with same speed. The observed direction of car to the passenger in the train is

A train is moving due East and a car is moving due North, both with the same speed 30 km h^(-1) . What is the observed speed and diredction of motion of car to the passsenger in the train ?

A train is moving due east and a car is moving due north with equal speeds. A passenger in the train finds that the car is moving towards

Wind is blowing west to east along twoparallelracs. Two trais moving with the same speed in opposite directions on these tracks have the steam tracks. If one stream track isdouble than the other, what is the speed of each train ?

A car is moving in east direction. It takes a right turn and moves along south direction without change in its speed. What is the direction of average acceleration of the car?

Passenger of a train just drops a stone from it. The train was moving with constant velocity. What is path of the stone as observed by (a) the passenger itself, (b) a man standing on ground?

(A): Two similar trains are moving along the equatorial line with the same speed but in opposite direction. They will exert equal pressure on the rails. (R): In uniform circular motion the magnitude and direction of acceleration remains constant but the direction of motion continuously changes.

A train is moving slowly on a straightly track with a constant speed of 2 ms^(-1) . A passenger in the train starts walking at a steady speed of 2 ms^(-1) to the back of the train in the opposite direction of the motion of the train . So, to an observer standing on the platform directly in the front of that passenger appears to be

A train starting from rest is moving along a straight track with a constant acceleration fo 2.5m//s^(2) . A passenger at rest in the train observes a particle of mass 2kg to be at rest on the floor with which it has a coefficient of friction mu_(s) = mu_(k) = 0.5 .Six seconds after the starting of the train , a horizontal force F = 13N is applied to the particle for two seconds duration. The passenger now observes the particle to move perpendicular to the direction of the train. (a) calculate the kinetic energy of the particle with respect to the passenger at the end of 8 seconds after starting of the train. ( b) repeat the calculate of ( a) for an observer on the ground.

The diagram shows a train moving with constant velocity and a car moving towards the train with constant velocity. The engine driver measures the velocity of the car as v_(1) . The passenger sitting in the last compartment measures the velocity of the car as v_(2) . Which of the following statements is true?

A train is moving at a constant speed V when its driverobserves another train in front of him on the same track and voing in the same direction with constant speed v . If the distance berween the trains is x . Trains is x then what should be the minimum retardation of the train so as to avoed collision?.