The electric potential between a proton and an electron is given by ` V= V_(0) In((r)/(r_(0)))` where `r_(0)` is a constant. Assume that Bohr atom model is applicable to potential, then variation of radius of `n^(th)` orbit `r_(n)` with the principal quantum number n is

In the Bohr's hydrogen atom model, the radius of the stationary orbit is directly proportional to (n = principle quantum number)

According to Bohr, the relation between principal quantum number (n) and radius of the orbit ( r) is

In Bohr's model, the atomic radius of the first orbit is r_(0) . Then, the radius of third orbit is

In the Bohr model of hydrogen atom the ratio of the kinetic energy to the total energy of the electron in n^(th) quantum state is _____ .

An electric field vecE=10xhai i exists in a certain region of space. Then the potential difference V=V_(0)-V_(A) , where V_(0) is the potential at the origin and V_(A) is the potential at x =2 m is …….. .

A small particle of mass m move in such a way the potential energy U = (1)/(2) m^(2) omega^(2) r^(2) where omega is a constant and r is the distance of the particle from the origin. Assuming Bohr's model of quantization of angular momentum and circular orbits , show that radius of the nth allowed orbit is proportional to √n