For a rate law of the form, Rate = `k[A]^(m)[B]^(n)`, the exponents m and n are obtained from :

The rate law expresses the relationship of the rate of a reaction to the rate constant and the concentration of the reactants raised to some powers for the general reaction. aA+bBtocC+dD Rate law takes the form r=k[A]^(x)[B]^(y) where x and y are number that must be determined experimentely k is the rate constant and [A] and [B] are concentration of A & B respectively. Gaseous reaction AtoB+C follows first order kinetics concentration of A changes from A changes from 1M to 0.25M in 138.6 min.Find the rate of reaction when conc. of A is 0.1 M.

The rate law expresses the relationship of the rate of a reaction to the rate constant and the concentration of the reactants raised to some powers for the general reaction. aA+bBtocC+dD Rate law takes the form r=k[A]^(x)[B]^(y) where x and y are number that must be determined experimentely k is the rate constant and [A] and [B] are concentration of A & B respectively. The initial rate of zero order reaction of the gaseous equation A(g)to2B (g) is 10^(-2) M min^(-1) If the initial concentration of A is 0.1 M what would be concentration of B after 60 seconds ?

A hypothetical reaction has a rate law of : Rate = k[A]^(2)[B] . Which statement about this reaction is most probably correct?

Rate expression for Xa + Yb to products is Rate =K[A]^(m)[B]^(n) . Units of K w.r.t A and B respectively are s^(-1) and M^(-1)s^(-1) , when concentrations of A and B are increased by 4 times, then

For a reaction A+B to Products, the rate law is -Rate = k[A][B]^(3//2) Can the reaction be an elementary reaction? Explain.

For a reaction A+ B to Products, the rate law is -Rate = k[A][B]^(3//2) Can the reaction be an elementray reaction ? Explain.