, At time t=0, intial mole of A is 1.
Overall half time of the reaction is 15 days. Then calculate the number of mole of C after 45 days if the raio of `k_(1):k_(2):k_(3)` is `4:2:1`

The number of moles of KI required to prepare one mole of K_(2)[HgI_(4)] is

Calculate the number of moles of Sn^(2+) ion oxidise by 1 mole of K_(2)Cr_(2)O_7 in acidic medium.

The number of moles of KI required to produce 0.4 mole K_(2)HgI_(4) is

Number of moles of K_(2)Cr_(2)O_(7) reduced by one mole of Sn^(2+) ions is

The kinetic energy in J of 1 mole of N_2 at 27^@ C is (R= 8.314 mol^(-1) k^(-1))

3 mole of reactant A and one mole of reactant B are mixed in a vessel of volume 1 litre . The reaction taking place is A + B hArr 2 C . If 1.5 mol of C is formed at equilibrium , the value of K_(c) is

Number of moles of KI (potassium iodide) required to produce 0.1 mole of K_2Hg I_(4) is

K_c is 6.3 times 10^14 for the reaction NO+O_3 leftrightarrow NO_2+O_2 at 1000K, calculate K_c for the reverse reaction.

For the reactions A+BhArr3C at 25^(@)C , a 3 litre vessel contains 1,2,4 mole of A, B and C respectively predict the direction of reaction if a. K_(c) for the reaction is 10 b. K_(c) for the reaction is 15 c. K_(c) for the reaction is 10.66