`10 mg` of an adsorbate gets adsorbed on a surface. This cause the release of `3J` of heat constant pressure and at `27^(@)C`. `["Molar mass of adsorbate" =100 g//mol]`.
(i) Find `DeltaH_(AD)`
(ii) Argue whether the adsorption is physical or chemical?
(iii) If `20` mg of adsorbate is adsorbed a temperature `T_(0)`. Then compare `T_(0)` and `27^(@)C`.

A solution containing 4.0 g of PVcC in 2 liter of dioxane (industrial solvent ) was found to have an osmotic pressure 3.0 x 10^(-4) atm at 27^(@)C . The molar mass of the polymer (g/mol) will be :

10 mole of an ideal gas is heated at constant pressure of one atmosphere from 27^(@)C to 127^(@)C . If C_(v,m)=21.686+10^(-3)T(JK^(-1).mol^(-1)) , then DeltaH for the process is :

The molar heat capacity of water at constant pressure, C, is 75 JK^(-1) mol^(-1) . When 1.0 kJ of heat is supplied to 100 g water which is free to expand, the increase in temperature of water is :

A close container of volume 0.02 m^(3) contains a mixture of neon and another gas A of unknown molecular mass. The container contains 4 g of Neon and 24 g of gas A. At a temperature of 27^(@)C the pressure of the mixture is 105 N//m^(2) . Is there any possibility of finding gas A in the atmosphere of a planet of radius 600 km and mean density r = 5 x× 103 kg//m^(3) ? Temperature of the planet is 2200^(@)C . Molar molecular mass of neon = 20 g, Gas constant R = 8.314 "J mol"^(–1) K^(–1) Gravitational constant G = 6.67 x× 10^(–11) N m^(2) kg^(–2)

Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemical equation . The amount of energy released during a chemical change depends upon the state of reactants and products, the conditions of pressure and volume at which reaction is carried out, and temperature. The variation of heat of reaction (DeltaH_(1) or DeltaE) with temperature is given as DeltaH_(2)-DeltaH_(1)=DeltaC_(P)[T_(2)-T_(1)] or DeltaE_(2)-DeltaE_(1)=DeltaC_(v)(T_(2)-T_(1). Standard heat enthalpy of elements in their most stable state is assumed to be zero whereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atm pressure and 25^(@)C . Oxidation of N_(2) to N_(2)O,NO,NO_(2) shows absorption of energy whereas heat of combustion of N_(2) is exothermic like other heat of combustion. The specific heat of I_(20 in vapour and solid state are 0.031 and 0.55cal//g respectively. If heat of sublimation of iodine is 6.096 kcal mol^(-1) at 200^(@)C , the heat of sublimation of I_(2) at 250^(@)C is :

Specific surface area of a solid adsorbent is the surface area of the unit mass of the adsorbent. For any adsorbent, the specific surface area may be increased by taking the adsorbent in powdered form or by increasing the pores in the solid. 112 cm^(3) hydrogen gas is adsorbed uniformly at the surface of 5 gm palladium at 273^(@)C and 2 atm. If the effective surface area of each hydrogen molecule is 0.4 nm^(2) , then the specific surface area of palladium is : [Take : N_(A) = 6x10^(23) ]