A person travels on a spaceship moving at a speed of `5c / 13`. (a) Find the train interval calculate by him between the consecutive birthday celbrations of his friend on the earth . (b) Find the time interval calculated by the friend on the earth between the consecutive birthday celebrations of the traveller.

A wave travels at a speed of 0.3 m s^(-1) and the frequency of wave is 20 Hz. Find the separation between two consecutive compressions.

A longitudinal wave travels at a speed of 0.3 m s^(-1) and the frequency of wave is 20 Hz. Find the separation between the two consecutive compressions.

A track consists of two circular pars ABC and CDE of equal radius 100 m and joined smoothly as shown in figure.Each part subtends a right angle at its centre. A cycle weighing 100 kg together with rider travels at a constant speed of 18 km/h on the track. A. Find the normal contact force by the road on the cycle when it is at B and at D. b.Find the force of friction exerted by the track on the tyres when the cycle is at B,C and D. c. Find the normal force between the road and the cycle just before and just after the cycle crosses C. d. What should be the minimum friction coefficient between the road and the tyre, which will ensure that the cyclist can move with constant speed? Take g=10 m/s^2

A track consists of two circular pars ABC andCDE of equal rdius 100 m and joined smoothly as shown in figure.Each part sutends a right ngle at its centre. A cycle weighing 100 kg together with rider travels at a constant speed of 18 km/h on the track. A. Findteh nromal contct force by tehroad on the cycle whenit is at B and at D. b.Findteh force of friction exerted by the track on the tyres when the cycle is at B,C and D. c. Find the normal force between teh road and teh cycle just before and just after the cycle crosses C. d. What should be the minimum friction coefficient between the road and the tyre, which will ensure that teh cyclist can move with constant speed? Take g=10 m/s^2

Two events A and B occur at places separated by 10^(6) km , B occuring 5s after A . (a) Find the velocity of a frame in which these events occur at the same place . (b)What is the time interval between the events in this frame ?

One end of each of two identical springs, each of force constant 0.5N//m are attached on the opposite sides the a wooden block of mass 0.01kg . The other ends of the spring are connected to separate rigid supports such that the springs are unstrtched and are collinear in a horizontal plane. To the wooden piece is fixed a pointer which touches a vertically moving plane paper. The wooden piece kept on a smooth horizontal table is now displaced by 0.02m along the line of springs and released. If the speed of paper is 0.1m//s , find the equation of the path traced by the pointer on the paper and the distance between two consecutive maximum on this path.

A boy on a train of height h_1 projects a coin his friend of height h_2 standing on the same train, with a velocity v relative to the train, at an angle theta with horizontal. If the train moves with a constant velocity v' in the direction of x - motion of the coin, find the (a) distance between the boys so that the second boy can catch the coin, (b) maximum height attained by the coin, and ( c) speed with which the second boy catches the coin relative to himself (train) and ground.

A satellite having time period of revolution 6830 sec is travelling in the same direction as the rotation of the earth, i.e. from west to east, the time interval between the two successive times at which it will appear vertically overhead to an observer at a fixed point on the equator is

The time interval between a lightning flash and the first sound of thunder is 5 s. If the speed of sound in air is 330 m s^(-1) , find the distance of flash from the observer.

Consider a particle intially moving with a velocity of 5 m s^(-1) starts decelerating at a constant rate of 2 m s^(-2) . a. Determine the time at which the particle becomes stationary. b. Find the distance travelled in the second second. c. Find the distance travelled in the third second.