The equation of state, corresponding to 8 g of `O_(2)` is

State the equation corresponding to 8g of O_(2) is

The van der Waals' equation of law of corresponding states for 1 mole of gas is :

What is the equation of state for 16kg of O_(2) ?

Find the value of Delta_(f) H^(@) for the reaction N_(2) O_(4) (g) + 3 CO(g) rarr N_(2) O (g) + 3 CO_(2) (g) Standard enthalpies of formation of CO(g), CO_(2) (g), N_(2) O (g) , and N_(2) O_(4) (g) are - 110, - 393, 81 , and 9.7 kJ mol^(-1) , respectively. Strategy : The standard enthalpy change of a reaction is equal to the sum of the standard molar enthalpie of formation of the products each multiplied by its stiochiometric coefficient in the balanced equation, minus the corresponding sum of the standard molar enthalpies of formation of the reactants

Photosysthesis si a bio process by which plants make energy rich molecules from low energy molecules with the help of energy from sunlight . The photosysthesis of glucose can be represented as: 6CO_(2(g))+ 6H_(2)O_(g) + hv rarr C_(5)H_(12)O_(6(s)) + 6O_(2)(g)..........(i) The energy of one mole of a photon of wave lenght is known as one Einstein. Write balanced equations for the half cell reactions corresponding to oxidation of glucose.

The equilibrium constant expression for a gas reaction is : K_(c) = ([NH_(3)]^4[O_(2)]^5)/([NO]^(4)[H_(2)O]^(6)) Write the balanced chemical equation corresponding to this expression.

The equilibrium constant expression for a gas reaction is, K_(c )=([NH_(3)]^(4)[O_(2)]^(5))/([NO]^(4)[H_(2)O]^(6)) Write the balance chemical chemical equation corresponding to this expression.

At 298K , the enthalpy of combustion of CH_(4) corresponds to the reaction CH_(4)(g) +2O_(2)(g) rarr CO_(2)(g)+2H_(2)O(g)

The rate constant k , for the reaction N_(2)O_(5)(g) rarr 2NO_(2) (g) + (1)/(2) O_(2)(g) is 2.3 xx 10^(-2) s^(-1) . Which equation given below describes the change of [N_(2)O_(5)] with time ? [N_(2)O_(5)]_(0) and [N_(2)O_(5)]_(t) correspond to concentration of N_(2)O_(5) initially and at time, t ?

The rate constant k , for the reaction N_(2)O_(5)(g) rarr 2NO_(2) (g) + (1)/(2) O_(2)(g) is 2.3 xx 10^(-2) s^(-1) . Which equation given below describes the change of [N_(2)O_(5)] with time ? [N_(2)O_(5)]_(0) and [N_(2)O_(5)]_(t) correspond to concentration of N_(2)O_(5) initially and at time, t ?