Suppose in an imginary world the angular momentum is quantized to be even integral multiples of h//2 pi . What is the longest possible wavelenght emitted by hydrogen atoms in visible range in such a world according to Bohr's model?
(A) bohr's third postulaate states that the stationary orbits are those for which the angular momentum is some integral multiple of (h)/(2pi) . (R) linear momentum of the electron in the atom is quantised.
Which of the following postulates does not belong to Bohr's model of the atom? a) Angular momentum of electron is an integral a) multiple of (h)/(2 pi) ,b) The electron stationed in the orbit is stable c)The path of an electron is circular d) Mass of electron increases with increase velocity
Show that the circumference of the Bohr orbit for the hydrogen atom is an integral multiple of the de Broglie wavelength associated with the electron revolving around the orbit.
If log_((1)/(sqrt(2)))sin x>0,x in[0,4 pi], then the number values of x which are integral multiples of (pi)/(4), is
According to Bohr second postulate, the angular momentum of electron is the integral multiple of h/(2pi) . The S.I unit of Plank constant h is same as……
A: Angular momentum of an electron in an atom is quantized R : in an atom only orbitals are permitted in which angular momentum of the electron is a natural number multiple of (h)/( 2 pi)
