Predict their magntic behaviour of N2

Predict their magnetic behaviour of N2+.

Write the molecular orbital configuration of the following species : (a) N_2 " " (b) N_(2)^(+) " " (c ) N_(2)^(-) " " (d) N_(2)^(2-) (i) Calculate their bond orders. (ii) Predict their magnetic behaviour. (iii) Which of these does show highest paramagnetism?

Write the molecular orbital configuration of the following species : (a) O_2 " " (b)O_(2)^(-) " " (c ) O_(2)^(+) " "(d) O_(2)^(2+) (i) Calculate their bond order. (ii) Predict their magnetic behaviour. (iii) Which of these does show highest paramagnetism?

Write the molecular orbital configuration of N_2. Calculate the bond order and predict its magnetic behaviour.

Write the molecular orbital configuration of O_(2)^(+) Calculate its bond order and predict its magnetic behaviour.

Using the valence bond approach, predict the shape, hybridisation and magnetic behaviour of [Ni(CO)_(4)] . (at. no. of Ni = 28)

Using the valence bond theory, predict the shape and magnetic behaviour of [Cr(NH_3)_5Cl]^(2+) ion.

Compare the relative stabilities and magnetic behaviour of the following species (a) O_(2)^(Θ) and N_(2)^(o+) (b) O_(2)^(2-) and N_(2)^(Θ) (c ) O_(2)^(2-) and N_(2)^(2-) .

Predict the product

Predict the product