Ethylene is produced by,
`underset("Cyclobutane")(C_(4)H_(8))overset(Delta)(rarr) 2C_(2)H_(4)`
The rate constant is `2.48xx10^(-4) sec^(-1)`. In what time will the molar ratio of the ethylene to cyclobutane in reaction mixture attain the value `1` ?

Ethylene is profuced by C_(4)H_(8)("cyclobutane")overset(Delta)rarr2C_(2)H_(4) The rate constant is 2.48 xx 10^(-4)s^(-1) . In what time will the molar ratio of the ethylene to cyclobutane in reaction mixture attain the value (a) 1 (b) 100 ?

Ethylene is profuced by C_(4)H_(8)("cyclobutane")overset(Delta)rarr2C_(2)H_(4) The rate constant is 2.48 xx 10^(-4)s^(-1) . In what time will the molar ratio of the ethylene to cyclobutane in reaction mixture attain the value (a) 1 (b) 100 ?

Ethylene is produced by C_4H_8oversetDeltararr2C_2H_4 Cyclobutane. The rate constant is 2.48 xx 10^-4sec^-1 . In what time will the molar ratio of the ethylene to cyclobutane in reaction mixture attain the value 1:

Ethylene is produced by C_(4)H_(8) overset(Delta)to 2C_(2)H_(4)  The rate constant is 2.3 xx 10^(-4) sec^(-1) . Approximately in what time will the molar ratio of ethylene to cyclobutane in mixture attain the value equal to one? (log 2=0.3, log 3 =0.47)

Ethylene is produced C_{4}H_{8}rarrdelta 2C_{2}H_{4} The rate constant 'is 2.48 xx 10^(-4) (sec)^(-1) . In what time cyclobutane will the molar ratio of the ethylene to cyclobúane in reaction mixture attain the value (a) 1 (b) 100 .

C_(4)H_(8)to2C_(2)H_(4) . The rate constant is 2.84xx10^(-4)s^(-1) . Calculate the time required to attain a molar ratio of the mixture, ethylene to cyclobutane is equal to 1:100 .

The rate constant of the production of 2B (g) by the reaction , A(g)overset(Delta)rarr2B(g) is 2.48xx10^(-4)s^(-1) A 1 : 1 molar ratio of A to B in the reaction mixture is attained after

The rate constant of the production of 2B (g) by the reaction , A(g)overset(Delta)rarr2B(g) is 2.48xx10^(-4)s^(-1) A 1 : 1 molar ratio of A to B in the reaction mixture is attained after