A standing wave of time period `T` is set up in a string clamped between two rigid supports, At `t =0` antinode is at its maximum displacement `2A`.

Stationary waves produced in a string of length 60 cm is described by y = 4 sin ((pix )/(15))cos (96pi t) (where x and y are in cm and is in s). Find (1) position of nodes (il) positions of antinodes (iii) maximum displacement of a particle at * 5 cm (iv) equations of component waves of given stationary wave.

In a standing wave formed by two atoms separated by 1.21Å, there are 3 nodes and 2 antinodes. Find its wavelength.

A body makes angular simple harmonic motion of amplitude pi//10rad and time period 0.05s . If the body is at a displacement theta = pi//10 rad at t = 0 , write the equation giving angular displacement as a function of time.

Two particles are in SHM in a straight line about same equilibrium position. Amplitude A and time period T of both the particles are equal. At time t=0 , one particle is at displacement y_(1)=+A and the other at y_(2)=-A//2 , and they are approaching towards each other. after what time they cross each other?

The displacement of the medium in a sound wave is given by the equation y_(1) = A cos(ax + bt) where A , a and b are positive constants. The wave is reflected by an obstacle situated at x = 0 . The intensity of the reflected wave is 0.64 times that of the incident wave. (a) What are the wavelength and frequency of incident wave? (b) Write the equation for the reflected wave. ( c ) In the resultant wave formed after reflection, find the maximum and minimum values of the particle speeds in the medium. (d) Express the resultant wave as a superposition of a standing wave and a travelling wave. What are the positions of the antinodes of the standing wave ? What is the direction of propagation of travelling wave?

A particle oscillate according to y= 7 sin 0.5 pi t . Time taken by particle from equilibrium position to maximum displacement is……….

Length of a string tied to two rigid support is 40cm . Maximum length (wavelength in cm) of a stationary wave produced on it is

A standing wave having 3 nodes and 2 antinodes is formed between two atoms having a distance 1.21Å between them. The wavelength of the standing wave is

The time period and the amplitude of a simple pendulum are 4 seconds and 0.20 meter respectively. If the displacement is 0.1 meter at time t=0, the equation on its displacement is represented by :-

A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at x=0 , where, x is the position of the car at any time 't'. The maximum displacement from the starting position will be :-