A wave y= 3mm `sin (2pix-200 pit)` is

Propagating in the left string. It strikes the boundary at x=0 and is reflected partially and tranmitted partially. Choose the corrects statements (s)

The harmonic wave y_i = (2.0 xx 10^(-3)) cos pi (2.0x - 50t) travels along a string towards a boundary at x=0 with a second string. The wave speed on the second string is 50 m//s . Write expressions for reflected and transmitted waves. Assume SI units.

The linear density of a vibrating string is 1.3 xx 10^(-4) kg//m A transverse wave is propagating on the string and is described by the equation y= 0.021 sin (x + 30 t) where x and y are measured in meter and t t in second the tension in the string is :-

A string vibrate according to the equation y = 5 sin ((pi x)/(3)) cos (40 pi t) where x and y in cm's and t is in second. (i) What is the equation of incident and reflected wave ? (ii) What is the distance between the adjacent nodes ? (iii) What is the velocity of the particle of the string at the position x = 1.5 cm when t = (9)/(8) sec ?

The potential (in volts) of a charge distribution is given by V(z)=30-5z^(2) for |z| le 1m V(z)=35-10 |z| for |z| ge 1m V(z) does not depend on x and y. If this potential is potential is generated by a constant charge per unit volume rho_(0) (in units of in_(0) ) which is spread over a certain region, then choose the correct statement.

A transverse harmonic wave on a string is described by y(x,t) = 3.0 sin (36 t + 0.018x + pi//4) where x and y are in cm and t in s. The positive direction of x is from left to right (a) Is this a travelling wave or a stationary wave? If it is travelling what are the speed and direction of its propagation? (b) What are its amplitude and frequency? (c ) What is the initial phase at the origin ? (d) What is the least distance between two successive crests in the wave?

One end of a taut string of length 3m along the x-axis is fixed at x = 0 . The speed of the waves in the string is 100ms^(-1) . The other end of the string is vibrating in the y-direction so that stationary waves are set up in the string. The possible wavelength (s) of these sationary waves is (are)

A parabolic pulse given by equation y ("in cm") = 0.3 - 0.1(x-5t)^(2) (y ge 0) travelling in a uniform string. The pulse passes through a boundary beyond which its velocity becomes 2.5 m//s . What will be the amplitude of pulse in this medium after transmission ?

A horizontal stretched string, fixed at two ends, is vibrating in its fifth harmonic according to the equation, y(x,t)=(0.01 m) sin[(62.8 m^(-1)x] cos[(628 s^(-1))t] . Assuming p = 3.14 , the correct statement(s) is (are)

Statement-1 : The superposition of the waves y_(1) = A sin(kx - omega t) and y_(2) = 3A sin (kx + omega t) is a pure standing wave plus a travelling wave moving in the negative direction along X-axis Statement-2 : The resultant of y_(1) & y_(2) is y=y_(1) + y_(2) = 2A sin kx cos omega t + 2A sin (kx + omega t) .

If the equation of mirror is given by y= 2//pi "sin"pix (y gt 0 , 0 le x le 1 ) then find the point on which horizontal ray should be incident so that the reflected ray become perpendicular to the incident ray