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`.

An isolated hydrogen atom emits a photon of 10.2 eV . (i) Determine the momentum of photon emitted (ii) Calculated the recoll momenium of the atom (ii) Find the kinetic energy of the recoll atom [Mass of proton = m_(0) = 1.67 xx 10^(-27) kg ]

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

The ionisation energy of 10 times innised sodium atom is

The iron Fe^(27) nucleus emits a y-axis of energy 14.4KeV. If mass of nucleus is 56.935u, calculate the recoil energy of the nucleus. Take 1u=1.66xx10^(-27)kg.

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.

An electron in a hydrogen like atom is in an excited state3 . It has a total energy of -3 4 eV. Calculate : (a) The kinetic energy of electron . (b) The de-Broglie wavelength of electron . ( h = 6.6 xx 10^(023) , m_e = 9 .108 xx 10^(-31) kg)

A helium atom is two times heavier than a hydrogen molecule. At 298 K , the average kinetic energy of a helium atom is