Bohr's postulate that `mv r = (nh)/(2pi)` is proved mathematically by

In Bohr's orbit, (nh)/(2pi) indicates

(A) Bohr's third postulate states that the stationary orbits are these for which the angular momentum is same integral multiple of h/ 2pi (R) Linear momentum of the electron in the atom is quantized

(A) Bohr had to postulate that the electrons in stationary orbits around the nucleus do not radiate (R): According to classical physics all moving electrons radiate

In a hydrogen like ion, nucleus has a positive charge Ze Bohr.s quantization rule is, the angular momentum of an electron about the nucleus l = (nh)/(2pi) , where n is a positive integer If electron goes from ground state to 1^(st) excited state then change in energy of the hydrogen like ion is

Prove that sum (r+r_1) tan ((B-C)/( 2))=0

(A): Modern periodic table is called Bohr's periodic table. (R) : Modern periodic table is the graphical representation of Aufbau priniciple

Prove that r_1 +r_2+r_3-r = 4R

If in Hydrogen atom, an electron jumps from n_(2) = 2 to n_(1) = 1 in Bohr's orbit, then the value o wave number of the mitted photon will be (R = 109700 cm^(-1))