STATEMENT-1: In square planar complexes ` , d_(x^(2)-y^(2))` is higher in energy than `d_(xy)`
and
STATEMENT-2: Ligands approach along x and y axis in ` , d_(x^(2)-y^(2))`.

Which of the following statements are correct? (i) In octahedral complexes, d_z2, d_(x^2-y^2) orbitals have higher energy than d_(xy) , d_(yz) and d_(zx) orbitals. (ii) In tetrahedral complexes, d_(xy), d_(yz), d_(zx) orbitals have higher energy than d_z2 and d_(x^2-y^2) orbitals. (iii) The colours of complexes are due to electronic transitions from one set of d-orbitals to another set of orbitals. (iv) Delta_(tetrahedral)=9/4, Delta_(octahedral)

How are d^(xy) and d_(x^(2)-y^(2)) orbitals related to each other ?

How do d_(x^2 - y^2) and d_(xy) orbitals differ in their orientation is space ?

STATEMENT-1 : y = e^(x) is a particular solution of (dy)/(dx) = y . STATEMENT-2 : The differential equation representing family of curve y = a cos omega t + b sin omega t , where a and b are parameters, is (d^(2)y)/(dt^(2)) - omega^(2) y = 0 . STATEMENT-3 : y = (1)/(2)x^(3)+c_(1)X+c_(2) is a general solution of (d^(2)y)/(dx^(2)) = 3x .

If y=|x-x^(2)|, then find (d^(2)y)/(dx^(2))

Statement-1: H_(2)O_(2) is more polar than H_(2)O Statement-2: D_(2)O has higher boiling point than H_(2)O Statement-3: H_(2) bond bond energy is less than D_(2) .

Differentiate x^(2)+y^(2)-3xy=1