For reactions `A rarr B` and `P rarr Q` Arrhenius constant are `10^(8)` and `10^(10)` respectively. If `E_(A rarrB) = 600 cal //` mole and `E_(P rarr Q )= 1200 cal //` mole, then find the temperature at which their rate constants are same ( Given `: R =2 cal //` mole `//` K )

For reactions P to Q and X to Y Arrhenius constants are 10^(6) and 10^(8) respectively. If E_(P to Q) = 1500 cal//"mole" and E_(X to Y) = 2000 cal//"mole" , then find the temperature at which their rate constant are same. (Given : R = 2 cal//"mole"//K)

For reactions P to Q and X to Y Arrhenius constants are 10^(6) and 10^(8) respectively. If E_(P to Q) = 1500 cal//"mole" and E_(X to Y) = 2000 cal//"mole" , then find the temperature at which their rate constant are same. (Given : R = 2 cal//"mole"//K)

For reaction A rarr B , the rate constant K_(1)=A_(1)(e^(-E_(a_(1))//RT)) and the reaction X rarr Y , the rate constant K_(2)=A_(2)(e^(-E_(a_(2))//RT)) . If A_(1)=10^(9) , A_(2)=10^(10) and E_(a_(1)) =1200 cal/mol and E_(a_(2)) =1800 cal/mol , then the temperature at which K_(1)=K_(2) is : (Given , R=2 cal/K-mol)

For reaction A rarr B , the rate constant K_(1)=A_(1)(e^(-E_(a_(1))//RT)) and the reaction X rarr Y , the rate constant K_(2)=A_(2)(e^(-E_(a_(2))//RT)) . If A_(1)=10^(9) , A_(2)=10^(10) and E_(a_(1)) =1200 cal/mol and E_(a_(2)) =1800 cal/mol , then the temperature at which K_(1)=K_(2) is : (Given , R=2 cal/K-mol)

For reaction ArarrB, the rate constant k_(1)=A_(1)^(-Ea_(1//(RT))) and for the reactio XrarrY, the rate constant k_(2)=A_(2)^(-Ea_(1//(RT))) . If A_(1)=10^(8),A_(2)=10^(10) and E_(a_(1))=600 cal /mol, E_(a_(2))=1800 cal/mol then the temperature at which k_(1)=k_(2) is (Given :R=2 cal/K-mol)

For reaction A rarr B , the rate constant K_(1)=A_(1)(e^(-E_(a_(1))//RT)) and the reaction X rarr Y , the rate constant K_(2)=A_(2)(e^(-E_(a_(2))//RT)) . If A_(1)=10^(9) , A_(2)=10^(10) and E_(a_(1)) =1200 cal/mol and E_(a_(2)) =1800 cal/mol , then the temperature at which K_(1)=K_(2) is : (Given , R=2 cal/K-mol) a) 300K b) 300 xx 2.303 K c) (300)/(2.303 )K d) None of these

For reaction ArarrB, the rate constant k_(1)=A_(1) e^(-Ea_(1//(RT))) and for the reactio XrarrY, the rate constant k_(2)=A_(2) e^(-Ea_(2//(RT))) . If A_(1)=10^(8),A_(2)=10^(10) and E_(a_(1))=600 cal /mol, E_(a_(2))=1800 cal/mol then the temperature at which k_(1)=k_(2) is (Given :R=2 cal/K-mol) a) 1200 K b) 1200xx4.606 K c) (1200)/(4.606)K d) (600)/(4.606)K