In two element `._(Z1)A^(M1)` and `._(Z2)B^(M2)`
`M_(1)"ne" M_(2)` and `Z_(1)"ne"Z_(2)` but `M_(1)-Z_(1) =M_(2)-Z_(2)`. These elements are

In two element ._(Z1)A^(M1) and ._(Z2)B^(M2) M_(1)" =" M_(2) and Z_(1)"="Z_(2) but M_(1)-Z_(1) =M_(2)-Z_(2) . These elements are

The two nuclides z^(A^(m)) and ""_(z-2)B^(m-4) are known as

Give an example of two complex numbers z_(1) and z_(2) such that z_(1) ne z_(2) and |z_(1)| = |z_(2)| .

If |z_(1)| = |z_(2)| = 1, z_(1)z_(2) ne -1 and z = (z_(1) + z_(2))/(1+z_(1)z_(2)) then

There are three elements A, B and C. their atomic number are Z_(1), Z_(2) and Z_(3) respectively. If Z_(1)-Z_(2)=2 and (Z_(1)+Z_(2))/(2)=Z_(3)-2 and the electronic configuration of element A is [Ar]3d^(6)4s^(2) , then correct order of magnetic momentum is/are:

There are three elements A, B and C. their atomic number are Z_(1), Z_(2) and Z_(3) respectively. If Z_(1)-Z_(2)=2 and (Z_(1)+Z_(2))/(2)=Z_(3)-2 and the electronic configuration of element A is [Ar]3d^(6)4s^(2) , then correct order of magnetic momentum is/are:

There are three elements A, B and C. their atomic number are Z_(1), Z_(2) and Z_(3) respectively. If Z_(1)-Z_(2)=2 and (Z_(1)+Z_(2))/(2)=Z_(3)-2 and the electronic configuration of element A is [Ar]3d^(6)4s^(2) , then correct order of magnetic momentum is/are: