Which of the following samples contains the largest number of atoms ? .
(a). 1g of Ni(s)
(b). 1g of Ca(s)
(c). 1g of `N_(2)(g)`
(d). 1g of B(s)

Which one of the following will have the largest number of atoms? (i) 1 g Au (s) (ii) 1 g Na (s) (iii) 1 g Li (s) (iv) 1 g of Cl_2 (g)

Which one of the following will have the largest number of atoms? a)1g Fe(at. mass -56) b)1g Na (at. mass-23) c)1g Li (at. mass-7) d)1g F2 (at. mass-19)

The number of atoms present in 1 g of hydrogen is the same as that in 1 g of oxygen.

Which of the following elements will gain one electron more readily comparison to other elements of their groups? a) S(g) B) Na(g) C) O(g) D) CI(g)

Predict the sign of DeltaS for each of the following process: a. O_(2)(g) rarr 2O(g) b. N_(2)(g) +3H_(2)(g) rarr 2NH_(3)(g) c. C(s) +H_(2)O(l) rarr CO(g) +H_(2)(g) d. Br_(2)(l) rarr Br_(2)(g) e. N_(2)(g, 10 atm) rarr N_(2)(g,1atm) f. Desalination of water. g. Devitrification of glass h. Hard boiling of an egg i. C(s, "graphite") rarr C(s, "diamond")

In which of the following process maximum energy is released A) S_((g))+e^(-) rarr S_((g))^(-) B) O_((g))^(-) +e^(-) rarr O_((g))^(-2) C) S_((g))^(-)+e^(-) rarr S_((g))^(-2)

A 19.6 g of a given gaseous sample contains 2.8 g of molecules (d = 0.75 g L^(-1)) , 11.2 g of molecules (d = 3 g L^(-1)) and 5.6 g of molecules (d = 1.5 g L^(-1)) . All density measurements are made at STP . Calculate the total number of molecules (N) present in the given sample. Report your answer in 10^(23) N Assume Avogardro's number as 6 xx 10^(23) .

The number of chromosomes in G_(1) phase is 36, the number of chromosomes in S phase is

On the basic of the following Delta_(r)G^(Theta) values at 1073K : S_(1)(s) +2O_(2)(g) rarr 2SO_(2)(g) Delta_(r)G^(Theta) =- 544 kJ mol^(-1) 2Zn(s) +O_(2)(g) rarr 2ZnO(s) Delta_(r)G^(Theta) =- 480 kJ mol^(-1) 2Zn(s) +S_(2)(s) rarr 2ZnS(s) Delta_(r)G^(Theta) =- 293 KJ mol^(-1) Show that roasting of zinc sulphide to zinc oxide is a spontaneous process.

On the basic of the following Delta_(r)G^(Theta) values at 1073K : S_(1)(s) +2O_(2)(g) rarr 2SO_(2)(g) Delta_(r)G^(Theta) =- 544 kJ mol^(-1) 2Zn(s) +O_(2)(g) rarr 2ZnO(s) Delta_(r)G^(Theta) =- 480 kJ mol^(-1) 2Zn(s) +S_(2)(s) rarr 2ZnS(s) Delta_(r)G^(Theta) =- 293 KJ mol^(-1) Show that roasting of zinc sulphide to zince oxide is a spontaneous process.