an 8.55mol saple of methanol, CH3OH, is placed in a 15.0L evacuated rigid tank and heated to 327 degrees celsisus. at temperature, all of the methanol is vaporized and some of the methanol decomposes to form carbon monoxide gas and hydrogen gas as represented in the equation
CH3OH(g)-CO(g)+2H2(g)
(a)the reaction mixture contains 6.30 mol of CO(g) at the equilibrium at 327 degrees celsisus
(i)calculate the number of moles of H2(g) in the tank.
(ii) calculate the number of grams of CH3OH(g) remaining in the tank.
(iii) calculate the mole fraction of H2(g) in the tank.

Question

an 8.55mol saple of methanol, CH3OH, is placed in a 15.0L evacuated rigid tank and heated to 327 degrees celsisus. at temperature, all of the methanol is vaporized and some of the methanol decomposes to form carbon monoxide gas and hydrogen gas as represented in the equation
CH3OH(g)->CO(g)+2H2(g)
(a)the reaction mixture contains 6.30 mol of CO(g) at the equilibrium at 327 degrees celsisus
(i)calculate the number of moles of H2(g) in the tank.
(ii) calculate the number of grams of CH3OH(g) remaining in the tank.
(iii) calculate the mole fraction of H2(g) in the tank.

anonymous · Answer

(iv)calculate the total pressure in atm in the tank at 327 degrees celsisus
(b)consider the three gas as in the tank at 327 degrees celsius:CH3OH(g), CO(g) and H2(g)
(i)how do the average kinetic energies of the molecules of the gases compare? explain
(ii)which gas has ythe highest average molecular speed?explain
PLEASE HELP!