(a) What is meant by soft and hard X-rays ? How can the intensity and penetrating powers of X-rays be controlled ?
(b) Derive an expression for total energy of an electron in nth orbit of hydrogen atom.

Total energy of electron in nth stationary orbit of hydrogen atom is

Total energy of electron in nth stationary orbit of hydrogen atom is

Explain how the intensity and penetrating power of X-ray are controlled in a Coolidge X-ray tube.

Total energy of an electron in nth stationary orcit of hydrogen atom can be obtained by

Assertion : Soft and hard X -rays differ in frequency as well as velocity. Reason : The penetrating power of hard X - rays is more than the penetrating power of soft X -rays.

Hydrogen atom: The electronic ground state of hydrogen atom contains one electron in the first orbit. If sufficient energy is provided, this electron can be promoted to higher energy levels. The electronic energy of a hydrogen-like species (any atom//ions with nuclear charge Z and one electron) can be given as E_(n)=-(R_(H)Z^(2))/(n^(2)) where R_(H)= "Rydberg constant," n= "principal quantum number" Calculate the following : (a) the kinetic energy (in eV) of an electron in the ground state of hydrogen atom. (b) the potential energy (in eV) of an electron in the ground state of hydrogen atom.

When we write expression for energy of electron in n^"th" orbit of hydrogen atom we take zero potential energy at n=oo , But potential energy depends on point in reference. If we take total energy of electron in n=1 orbit as zero then , match the following :

Assertion : X - rays can penetrate through the flesh but not through the bones. Reason : The penetrating power of X - rays depends on voltage.

State the Following statement as statements as TRUE and FALSE. a. The redius of nth Bohr is proporitional to n^(2) . b. The total energy of electron in the nth orbit is inversely proporitional to n^(2) . c. The time period revolution of electron in the nth orbit is directly proporitional to n^(2) . d. The kinetic energy of electron is double of its potential energy with a negative sign. e. Velocity of electron in an atom is independent of its mass. f. Only balmer series of hydrogen atom lines in the visible range. g. The angular momentum of an electron revolving in the first orbit of hydrogen is equal to that in first orbit of helium. h. The binding energy of decuterium atom is more than that of hydrogen atom. i Lyman series of hydrogen atom lines in the infrared region.

The energy level excitation potential of a hydrogen -like atom is shown in Figure a Find the value of Z b If initially the atom is in the ground state ,then (i) determine its excitation potential, and m (ii) determine its ionization potential. c Can it absorbe a photom of 42 eV ? d Can it absorbe a photom of 56 eV ? e Calculate the radius of its first Bohr orbit. f Calculate the kinectic and potential energy of an electron in the first orbit.