Iron emits Kalpha X-ray of energy 6.4 ke...

Iron emits `K_alpha` X-ray of energy 6.4 keV and Calcium emits `K_alpha` X-ray of energy 3.69 keV. Calculate the times taken by an iron `K_a` photon and a calcium `K_a` photon to cross through a distance of 3 km.

Similar Questions

Explore conceptually related problems

A certain element emits K_alpha X-ray of energy 3.69 keV. Use the data from the previous problem to identify the element.

A certain element emits K_alpha X-ray of energy 3*69 keV. Use the data from the previous problem to identify the element.

Can L_alpha X-ray of one material have shorter wavelength than K_alpha X-ray of another?

A free atom of iron emits K_alpha X-rays of energy 6.4 keV. Calculate the recoil kinetic energy of the atom. Mass of and iron atom = 9.3 xx 10 ^(-26) kg .

A free atom of iron emits K_alpha X-rays of energy 6*4 keV. Calculate the recoil kinetic energy of the atom. Mass of and iron atom = 9*3 xx 10 ^(-26) kg .

A hot metal emits photons of light with energy 3.0 xx 10^(-19) J . Calculate the frequency and wavelength of the photon?

Iron emits `K_alpha` X-ray of energy 6.4 keV and Calcium emits `K_alpha` X-ray of energy 3.69 keV. Calculate the times taken by an iron `K_a` photon and a calcium `K_a` photon to cross through a distance of 3 km.

Similar Questions

Recommended Questions