The potential energy of a simple harmonic oscillator when the particle is half way to its end point is (where E is the total energy)
(1)
(2)
(3)
(4)
A body executes simple harmonic motion. The potential energy (P.E.), the kinetic energy (K.E.) and total energy (T.E.) are measured as a function of displacement x. Which of the following statements is true ?
(1) P.E. is maximum when x = 0
(2) K.E. is maximum when x = 0
(3) T.E. is zero when x = 0
(4) K.E. is maximum when x is maximum
A man measures the period of a simple pendulum inside a stationary lift and finds it to be T sec. If the lift accelerates upwards with an acceleration , then the period of the pendulum will be
(1) T
(2)
(3)
(4)
The total energy of a particle, executing simple harmonic motion is
(1)
(2)
(3) Independent of x
(4)
A simple pendulum is suspended from the roof of a trolley which moves in a horizontal direction with an acceleration a, then the time period is given by , where is equal to
(1) g
(2) g-a
(3) g+a
(4)
If the length of second's pendulum is decreased by 2%, how many seconds it will lose per day?
1. 3927 sec
2. 3727 sec
3. 3427 sec
4. 864 sec
The bob of a pendulum of length l is pulled aside from its equilibrium position through an angle and then released. The bob will then pass through its equilibrium position with a speed v, where v equals
(1)
(2)
(3)
(4)
A body is executing Simple Harmonic Motion. At a displacement x its potential energy is and at a displacement y its potential energy is . The potential energy E at displacement is
(1)
(2)
(3)
(4) None of these.
In a simple pendulum, the period of oscillation T is related to length of the pendulum l as:
1. = constant
2. = constant
3. = constant
4. = constant
The equation of motion of a particle is where K is positive constant. The time period of the motion is given by
(1)
(2)
(3)
(4)