Find radius
(A) `1^(st)` Bohr orbit of H-atom
(B) `2^(nd)` shell of `Li^(+2)` ion `(Z=3)`
(C ) `M` shell of `He^(+)` ion `(Z=2)`

If the radius of the first Bohr orbit of the H atom is r then for the Li^(2+) ion it will be:

The radius of the second Bohr orbit for Li^(2+) is :

Find ratio of radius of 2^(nd) orbit of He^(+) ion & 3^(rd) orbit of Be^(+3) ion.

The ratio of radii of first shell of H atom and that of fourth shell of He^(+) ion is

The ratio of the radius difference between 4^(th) and 3^(rd) orbit of H-atom and that of Li^(2+) ion is :

Find ratio of velocities of electrons in 2^(nd) excited state of Li^(+2) ion & 3^(rd) excited state of H-atom.

If the radius of the second orbit of hydrogen atom is a Å then radius of the first orbit of Li^(2+) ion (in Å ) will be

The radius of the first orbit of H-atom is r. then the radius of the first orbit of Li^(2+) will be:

According to Bohr's theory, the ratio of electrostatic force of attraction acting on electron 3^(rd) orbit of He^(+) ion and 2^(nd) orbit of Li^(2+) ion is ((3)/(2))^(x) . Then, the value of x is :

Find the ratio of the time period of 2^(nd) Bohr orbit of He^(+) and 4^(th) Bohr orbit of Li^(2+)