The number of radial nodes of 3s and 2p-orbtials respectively

Find out the difference in number of angular nodes and number of radial nodes in the orbital to whichlast electron of chromium present.

The Schrodinger wave equation for hydrogen atom is Psi("radial")=(1)/(16sqrt(4))((Z)/(a_(0)))^(3//2)[(sigma-1)(sigma^(2)-8sigma+12)]e^(-sigma//2) where a_(0) and Z are the constant in which anwer can be expressed and sigma=(2Zr)/(a_(0)) minimum and maximum position of radial nodes from nucleus are .... respectively.

What is the total number of radial and angular nodes present in 5 f orbital ?

The oxidation numbers of oxygen in KO_3, Na_2 O_2 respectively are :

If S_1 , S_2 , S_3 are the sum of first n natural numbers, their squares and their cubes, respectively, show that 9 S_2^2=S_3(1+8S_1) .

Maximum number of nodes are present in :

The correct order of total number of node of atomic orbitals is :

If S_n denotes the sum of n terms of a G.P. whose first term and common ratio are a and r respectively, then : S_1 +S_3+S_5+.....+S_(2n-1)= (an)/(1-r)-(ar(1-r^(2n)))/((1-r)^2 (1+r)) .

The 5th, 8th, and 11th terms of a GP are p, q and s respectively. Find relation between p,q and s.