The radius of the shortest orbit in a one electron system is 18pm it may be

The radius of the second orbit of an electron in hydrogen atom is 2.116A . The de Broglie wavelength associated with this electron in this orbit would be

The radius of Bohr's first orbit is a_(0) . The electron in n^(th) orbit has a radius :

In Bohr.s model of hydrogen atom, radius of the first orbit of an electron is r_(0) . Then, radius of the third orbit is:

The radius of the Bohr orbit in the ground state of hydrogen atom is 0.5 Å . The radius o fthe orbit of the electron in the third excited state of He^(+) will be

The radius of the fourth orbit in hydrogen atom is 0.85 nm. Calculate the velocity of the electron in this orbit.

If an orbital electron of the hydrogen atom jumps from the groud state to a higher energy state, its orbital value where its velcoity is reduced to half its initial value.. If the radius of the electron orbit in the ground state is r , then the radius of the new orbit would be:

The ratio of the radius of the Bohr orbit for the electron orbiting the hydrogen nucleus that of the electron orbiting the deuterium nucleus is approximately

The electron in a hydrogen atom jumps from ground state to the higher energy state where its velcoity is reduced to one-third its initial value. If the radius of the orbit in the ground state is r the radius of new orbit will be

In the nth orbit of hydrogen atom, find the ratio of the radius of the electron orbit and de-Broglie wavelength associated with it.

If the radius of an orbit is r and the velocity of electron in it is v , then the frequency of electron in the orbit will be