Calculate the number of moles in the glass bulb shown in figure at 300 K. Given : d (glycerine)= 2.72 g/mL,d (mercury) = 13. 6 g/mL

Calculate (1) the number of moles and (2) the volume at STP of 0.52g of acetylene.

The average kinetic energy of a molecule in a gas at STP is 5.6 times 10^-14erg . Find out the number of molecules per volume of the gas Given, density of mercury =13.6 g.cm^-3 .

Calculate the molarity and normality of a solution containing 5g Na_2CO_3 in 250 mL solution.

500 mL 4 (M) of NaCl solution is electrolysed liberating Cl_(2)(g) at an electrode. Calculate (i) the total number of moles of Cl_(2) (ii) the maximum amount of amalgam, if Hg- cathode is used. (Hg = 200) (iii) the amount of electricity required for complete electrolysis.

For the reaction, SO_2(g) + 1/2 O_2(g) iff SO_3(g) , the value of K_c is 1.7 xx 10^(12) at 300K. Calculate the equilibrium constants for the following reactions at 300K : 2SO_2(g) + O_2(g) iff 2SO_3(g) and SO_3(g) iff SO_2(g) + 1/2O_2(g)

For the reaction, A(g)+B(g)toC(g)+D(g) occuring in a closed vessel of 1L volume, the value of equilibrium constant is 16 at a particular temperature. If the number of moles of each of the constituents be 1, then in which direction will the reaction occur to a greater extent to attain equilibrium? Also, calculate the molar concentrations of B(g) and D(g) at equilibrium

Calculate the pressure at the bottom of a fresh water lake of depth 10 m. The atmospheric pressure = 76 cm of mercury and the density of mercury = 13.6g*cm^(-3) .

Calculate the elevation of boiling point of water when 0.6 gm urea is dissolved in 250 ml water given [ K_b 0.52 k.kg mol^(-1) ]

If 4 g of NaOH dissolves in 36g of H_(2)O , then calculate the mole fraction of each component in the solution. Also, determine the molarity of the solution (specific gravity of solution is 1g *mL^(-1) ).