A manometer attached to a flask contains with ammonia gas have no difference in mercury level initially as shown in diagram. After sparking into the flask, ammonia is partially dissociated as `2NH_(3)" (g)"rarr N_(2)" (g)"+3H_(2)" (g)"` now it have difference of 6 cm in mercury level in two columns, what is partial pressure of `H_(2)" (g)"` at equilibrium?

Ammonia gas at 76 cm Hg pressure was connected to a manometer. After sparking in the flask, ammonia is partially dissociated as follows : 2NH_(3) (g) hArr N_(2) (g) + 3H_(2) (g) the level in the mercury column of the manometer was found to show the difference of 18 cm. What is the partial pressure of H_(2) (g) at equilibrium ?

Two moles of NH_3 are introduced into one litre flask in which it dissociates at high temperature as 2NH_3(g) hArr N_2(g) + 3H_2(g) Find the value of K_C .

Two moles of ammonia gas are introduced into a previously evacuated 1 L flask in which it partially dissociates at high temperature as : 2NH_(3)(g)hArr N_(2)(g)+3H_(2)(g) At equilibrium 1.0 mole of NH_(3)(g) is found. What is K_(c ) ?

A open ended mercury manometer is used to measure the pressure exerted by a trapped gas as shown in the figure. Initially manometer shows no difference in mercury level in both columns as shown in diagram. After sparking 'A' dissociates according to following reaction 2A(g)rarr 3B(g)+2C(g) If pressure of Gas "A" dissociates to 0.8 atm, then (Assume temperature to be constant and is 300 K)

An open ended mercury mnometer is used to measure the pressure exerted by a trapped gas as shown in the figure. Initially manometer shows no difference in mercury level in both columns as shown in diagram. After sparking A dissociates according to following reaction: 2A(g)rarr3B(g)+2C(g) ltbr. If pressure of Gas A decreases to 0.8 atm. Then: (Assume temperature to be constant at 300K)

A open ended mercury manometer is used to measure the pressure exerted by a trapped gas as shown in the figure. Initially manometer shows no difference in mercury level in both columns as shown in diagram. After sparking 'A' dissociates according to following reaction A(g)rarrB(g)+3C(g) If pressure of Gas "A" dissociates to 0.9 atm, then (Assume temperature to be constant and is 300 K)

A open ended mercury manometer is used to measure the pressure exerted by a trapped gas as shown in the figure. Initially manometer shows no difference in mercury level in both columns as shown in diagram. After sparking 'A' dissociates according to following reaction A(g)rarrB(g)+3C(g) If pressure of Gas "A" dissociates to 0.9 atm, then (Assume temperature to be constant and is 300 K)

A monometer contains a liquid of density 5.44g//cm^(3) is attached to a flask containing gas 'A' as follows The initial pressure of gas A in th flask is: