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)`

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

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

Calculate the radius ratio of 2^(nd) orbit of hydrogen and 3^(rd) orbit of Li^(+2)

Calculate the radius ratio of 2^(nd) excited state of H & 1^(st) excited state of Li^(+2) .

Calculate the radius ratio of 3^(rd) & 5^(th) orbit of He^(+) . r=0.529xx(n^(2))/(Z) Å At. Number of of He =2

the ratio of the radii of n = 10 orbit of hydrogen and Li^(+2) ion is .....

The ionization energy of H-atom is 13.6eV . Calculate the is ionization energy of Li^(+2) ion-

In a mixture of H-He^(+) gas ( He^(+) is singly ionized He atom), H atoms and He^(+) ions are excited to their respective first excited states. Subsequently, H atoms transfer their total excitation energy to He^(+) ions (by collisions). Assume that the Bohr model of atom is exctly valid. The ratio of the kinetic energy of the n=2 electron for the H atom to that of He^(+) ion is:

Calculate the radius of 1^(st), 2^(nd),3^(rd),4^(th) Bohr's Orbit of hydrogen.