calculate the doppler shift in the frequency of photon traveling along y axis with respect to...

calculate the doppler shift in the frequency of photon traveling along y axis with respect to moving observer along x axis with velocity v ,explain brielfy how does doppler effect of light in relativistic approach differ from non relativistic approach .

Expert Solution

genius_generous answered 1 year ago

To understand the terms in the Doppler shift formula. The Doppler shift formula gives the frequency...

To understand the terms in the Doppler shift formula. The Doppler shift formula gives the frequency fL f L at which a listener L hears the sound emitted by a source S at frequency fS f S : fL=fSv+vLv+vS f L = f S v + v L v + v S , where v v is the speed of sound in the medium, vL v L is the velocity of the listener, and vS v S is the velocity...

The Doppler effect - the shift in frequency/wavelength of a sound source when there is relative...

The Doppler effect - the shift in frequency/wavelength of a sound source when there is relative motion between source & observer - and a Sonic Boom - a conical region of compression that forms around the sound source when its speed exceeds the speed of sound in the medium of the source, and results in an observed "boom" when part of the cone passes the observer's location - are two interesting, common, as well as connected phenomena seen this week....

If a sound with frequency fs is produced by a source traveling along a line with...

If a sound with frequency fs is produced by a source traveling along a line with speed vs. If an observer is traveling with speed vo along the same line from the opposite direction toward the source, then the frequency of the sound heard by the observer is fo = c + vo c − vs fs where c is the speed of sound, about 332 m/s. (This is the Doppler effect.) Suppose that, at a particular moment, you are...

Suppose a photon leaves the origin traveling along the vector v0 =< 1, 3, −1 >...

Suppose a photon leaves the origin traveling along the vector v0 =< 1, 3, −1 > towards a mirror lying on the plane 2x + 3y − 5z = 30. a) Find a vector function r(t) that describes the path of the photon as it travels towards the mirror. b) Find the value of t0 and the coordinates of the point (x0, y0, z0) where the photon hits the mirror. c) Find the velocity vector r 0 (t0) of the...

Calculate the energy of the emitted photon as well as the wavelength and frequency of electromagnetic...

Calculate the energy of the emitted photon as well as the wavelength and frequency of electromagnetic radiation emitted from the hydrogen atom when the electron undergoes the transition from n = 5 to n = 4.

Calculate the frequency of the photon emitted when the electron jumps from the n = 3...

Calculate the frequency of the photon emitted when the electron jumps from the n = 3 to the n = 2 energy level.

A body of mass 15.0 kg is traveling at 5.3 m/s along the positive x-axis with...

A body of mass 15.0 kg is traveling at 5.3 m/s along the positive x-axis with no external force acting. At a certain instant an internal explosion occurs, splitting the body into two chunks of 7.5 kg mass each. The explosion gives the chunks an additional 16 J of kinetic energy. Neither chunk leaves the line of original motion. Determine the speed and direction of motion of each of the chunks after the explosion. Enter the larger velocity. Enter the...

A traveling wave along the x-axis is given by the following wave function ψ(x, t) =...

A traveling wave along the x-axis is given by the following wave function ψ(x, t) = 4.5 cos(2.1x - 11.8t + 0.52),where x in meter, t in seconds, and ψ in meters. Find a) the frequency, in hertz b)The wavelength in meters. c) The wave speed, in meters per second. d) The phase constant in radians.

Suppose a dog is chasing a rabbit along the y-axis, and the coordinate of the rabbit's...

Suppose a dog is chasing a rabbit along the y-axis, and the coordinate of the rabbit's position at time t is given by (1/3) t^2 +4t. The dog's speed is equal to one half the distance between the two animals and the dog's coordinate at t=0 is y=-5. a. Determine a differential equation for the position of the dog b. Justify whether the dog will ever catch the rabbit?

There is a positively Q charged rod that is symmetrical along the y-axis with length W....

There is a positively Q charged rod that is symmetrical along the y-axis with length W. Show how to set up an integral for E at any point in 3-space.

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