A star is moving away from the earth with a velocity of `100 km//s`. If the velocity of light is `3 xx 10^(8) m//s` then the shift of its spectral line of wavelength `5700 A` due to Doppler effect is

A rocket is going away from the earth at a speed of 10^(6) m/s. If the wavelength of the light wave emited by it be 5700 Å, what will be its Dopper,s shift

The velocity of all radiowaves in free space is 3xx10^(8),//s , the frequency of a wave of wavelength 150 m is

A star is moving away from earth and shift in spectral line of wavelength 5700 Å is 1.90 Å . Velocity of the star is :

A broadcasting station radiates at a frequency of 710 kHz. What is the wavelength ? Velocity of light =3 xx 10^8" m/s".

Earth is moving towards a stationary star with a velocity 100 kms^(-1) . If the wavelength of light emitted by the star is 5000Å, then the apparent change in wavelength observed by the observer on earth will be

A particle is moving eastwards with velocity of 5 m//s . In 10 sec the velocity changes to 5 m//s northwards. The average acceleration in this time is.

Anoop is moving due east with a velocity of 1 m//s and Dhyani is moving due west with a velocity of 2 m//s. what is the velocity of Anoop with respect to Dhyani?

star emitting light of wavelength 5896 Å is moving away from the earth with a speed of 3600 km / sec . The wavelength of light observed on earth will ( c= 3 xx 10 ^(8) m//sec is the speed of light)

The distance of a galaxy from the earth is 5.6 xx 10^(25) m. Assuming the speed of light to be 3 xx 10^8 m s^(-1) find the time taken by light to travel this distance.

The wavelength of red light is 800 nm. Find its frequency. Speed of light = 3 xx 10^(8) m s^(-1).