The equivalent weight of `Na_(2) HPO_(4)` can be
a. `M//2` as base b. `M//1` as acid
c. Both (a) and (b) d. Neither (a) and (b)

The number of equivalence relation that can be defined on (a, b, c) is

The equivalent weight of K_2Cr_2O_7 in acidic medium is expressed in terms of its molecular weight (M) as :

a, b, c are in A . P, x is G . M between a and b, y is the G.M between b and c, then b^(2) is

The oxidation number of boron in Na_(2)B_(4)O_(7) is :

Fil in the blanks a. The mass of 1 molecule of water (H_(2) O) is ……… b. The number of molecules in 16 g of sulphur dioxide (SO_(2)) are ………. c. The weight of one mole of sodium carbonate (Na_(2) CO_(3)) is…………….. d. Moles and g equivalent in 196 g of Ca (OH)_(2) are ...... and ....... e. Moles and g equivalent in 196 g of H_(3) PO_(4) are ............. and ............ f. g atoms in 62 g of P_(4) are ....... f. g atoms in 24 g of magnesium are...........

The density of a 3 M Na_(2) S_(2) O_(3) (sodium thiosulphate) solution is 1.25 g mL^(-1) . Calculate: a. % by weight of Na_(2) S_(2) O_(3) b. Mole fraction of Na_(2) S_(2) O_(3) c. Molalities of Na^(o+) and S_(2) O_(3)^(2-) ions.

If a,b,c are in A.P. and a,mb,c are in G.P. , then a, m^(2)b, are in :

Find the derivative of the following functions (it is to be understood that a, b, c, d, p, q, r and s are fixed non-zero constants and m and n are integers): (a)/(x^(4))-(b)/(x^(2))+cosx

Calculate the normality of mixture obtained by mixing a. 100 mL of 0.1 N HCl + 50 mL of 0.25 N NaOH b. 100 mL of 0.2 M H_(2) SO_(4) + 200 mL of 0.2 M HCl c. 100 mL of 0.2 M H_(2) SO_(4) + 100 mL of 0.2 M NaOH d. 1g equivalent of NaOH + 100 mL of 0.1 N HCl