The acceleration-time graph of a particle undergoing SHM is shown in the figure. Then,
1. | the velocity of the particle at point 2 is zero |
2. | velocity at point 3 is zero |
3. | velocity at point 2 is +ve and maximum |
4. | both (2) & (3) |
1. | maybe \(K_0\) |
2. | must be \(K_0\) |
3. | maybe more than \(K_{0}\) |
4. | both (1) and (3) |
A body of mass M is situated in a potential field. The potential energy of the body is given by ; where x is position, K and are constant. Period of small oscillations of the body will be:
1.
2.
3.
4.
A particle is executing SHM about origin along X-axis, between points A(, 0) and B(-, 0). Its time period of oscillation is T. The magnitude of its acceleration second after the particle reaches point A will be
1.
2.
3.
4.
A particle executes linear oscillation such that its epoch is zero. The ratio of the magnitude of its displacement in 1st second and 2nd second is (Time period = 12 seconds)
1.
2.
3.
4.
A block of mass 0.02 kg is connected with spring and is free to oscillate on a horizontal smooth surface as shown. The angular frequency of oscillation is 2 rad . The block is pulled by 4 cm (from equilibrium position) and then pushed towards the spring with a velocity of 8 cm/s. The amplitude of oscillation is (Neglect any damping)
1.
2.
3.
4. 1 cm
A particle moves on a circular path with uniform speed about the origin. The \((x-t)\) graph will be:
(\(x:\) value of \(x-\)coordinate; \(t-\)time)
1. | 2. | ||
3. | 4. |
A simple pendulum has time period \(T.\) The bob is given negative charge and surface below it is given a positive charge. The new time period will be:
1. less than \(T\)
2. greater than \(T\)
3. equal to \(T\)
4. infinite
A simple pendulum attached to the ceiling of a stationary lift has a time period of 1 s. The distance y covered by the lift moving downward varies with time as y = 3.75 , where y is in meters and t is in seconds. If g = 10 , then the time period of the pendulum will be:
1. | 4 s | 2. | 6 s |
3. | 2 s | 4. | 12 s |
Which of the following may represent the potential energy of a body in S.H.M.? (Symbols have usual meaning)
1.
2.
3.
4. both (2) and (3)