The quantum number of four electrons (el to e4) are given below :-
`{:(,n,,l,,m,,s,,),(e1,3,,0,,0,,+1//2,,),(e2,4,,0,,0,,1//2,,),(e3,3,,2,,2,,-1//2,,),(e4,3,,1,,-1,,1//2,,):}`
The correct order of decreasing energy of these electrons is :

The quantum number of four electrons (el to e4) are given below :- {:(,n,,l,,m,,s,,),(e1,3,,0,,0,,+1//2,,),(e2,4,,0,,1,,1//2,,),(e3,3,,2,,2,,-1//2,,),(e4,3,,1,,-1,,1//2,,):} The correct order of decreasing energy of these electrons is :

The quantum numbers for the outer electrons of an atom are given by n = 2, l = 0, m = 0, s = +1//2

The quantum number of four electrons are given below: I. n=4,l=2,m_l=-2,m_s=-1/2 II. n=3,l=2,m_l=1,m_s=+1/2 III. n = 4 , l =1 ,m _l=0 ,m_s=+1/2 IV. n=3,l=1,m_l=1,m_s=-1/2 The correct order of their increasing energies will be

Consider the following sets of quantum numbers. (i) {:(n,l,m,s,),(3,0,0,+1//2,):} (ii) {:(n,l,m,s,),(2,2,1,+1//2,):} (iii) {:(n,l,m,s,),(4,3,-2,-1//2,):} (iv) {:(n,l,m,s,),(1,0,-1,-1//2,):} (v) {:(n,l,m,s,),(3,2,3,+1//2,):} Which of the following sets of quantum number is not possible ?

The number of real roots of the equation x^5+e^(8x)=0 is (1)0 (2) 1 (3) 2 (4) 3

Find number of real roots of equation e^(4x) + e^(3x) - 4e^(2x) + e^(x) + 1 = 0 is

The number of real solutions of the equation, e^(4x)+e^(3x)-4e^(2x)+e^(x)+1=0 is

The quantum numbers of six electrons are given below. Arrange them in order of increasing energies. If any of these combination(s) has/have the same energy lists: 1. n=4 , l=2 , m_(i) =-2, m_(s) =-1//2 2. n=3 , l=2 , m_(l) =1 , m_(s) =+1//2 3. n=4 , l=2 ,m_(l)=-2, m_(s) =-1//2 4. n=3 , l= 2, m_(i) =-1 , m_(s) = +1//2 5. n=3 , l=1 , m_(l) =-1 , m_(s) = +1//2 6. n=4 , l= 1 , m_(l) =0 , m_(s) =+1//2