A simple pendulum executing `SHM` in a straight line has zero velocity at 'A' and 'B' whose distances form 'O' in the same line `OAB` are 'a' and 'b'. If the velocity half way between them is 'v' then its time period is

A body moves along a straight line OAB simple harmonically. It has zero velocity at the points A and B which are at distances 'a' and b' respectively from 0' and has velocity 'V' when halfway between them then the period of SHM

A particle is executing SHM along a straight line. Its velocities at distances x_(1) and x_(2) from the mean position are v_(1) and v_(2) , respectively. Its time period is

A particle is executing SHM along a straight line. Its velocities at distances x_(1) and x_(2) from the mean position are v_(1) and v_(2) , respectively. Its time period is

Two particles are moving along a straight line as shown. The velocity of approach between A and B is

A particle executes SHM on a straight line path. The amplitude of oscialltion is 3 cm. Magnitude of its acceleration is eqal to that of its velocity when its displacement from the mean position is 1 cm. Find the time period of S.H.M. Hint : A= 3cm When x=1 cm , magnitude of velocity = magnitude of acceleration i.e., omega(A^(2) - x^(2))((1)/(2)) = omega^(2) x Find omega T = ( 2pi)(omega)

A particle moving along a straight line has a velocity v m s^(-1) , when it cleared a distance of x m. These two are connected by the relation v = sqrt (49 + x) . When its velocity is 1 m s^(-1) , its acceleration is

Two cars start in a race with velocities u_(1) and u_(2) and travel in a straight line with acceleration 'a' and b .If both reach the finish line at the same time,the range of the race is

A body executing S.H.M.along a straight line has a velocity of 3 ms^(-1) when it is at a distance of 4m from its mean position and 4ms^(-1) when it is at a distance of 3m from its mean position.Its angular frequency and amplitude are

A particle moving along a straight line with uniform acceleration has velocities 7 m//s at A and 17 m//s at C. B is the mid point of AC. Then :-

A simple pendulum executing SHM with a period of 6 s between two extreme positions B and C about a point O. if the length of the arc BC is 10 cm, how long will the pendulum take the move from position C to a position D towards O exactly midway between C and O?