By deriving the equation for `t_(1//2)` of first order reaction . Prove that `t_(1//2)` is independent of initial concentration of its reacting spectes.

For a first order reaction half life period t(1/2) is independent of initial concentration of its reacting species. By deriving the equation for t(1/2) of first order reaction, prove that t_(1/2) is independent of initial concentration of its reacting species.

For a first order reaction half life period t(1/2) is independent of initial concentration of its reacting species. What is meant by half life period of a reaction?

Assertion If in a zero order reaction, the concentration of the reactant is doubled. The half-life period is also doubled. Reason: For a zero order reaction, the rate of reaction is independent of initial concentration.

The rate constant for a first order reaction is 60 (s)^(-1) .How much time will it take to reduce the initial concentration of the reactant to its 1 / 16th value?

The reaction A rarr X is a first order reaction which takes place in a vessel with initial concentration of A as 10 M. The rate constant for this reaction is 4.16 h^(-1) . In the presence of a catalyst, the reaction A rarr Y follows second-order kinetics and the rate constant is 0.2 min^(-1) M^(-1) . What should be the initial concentration of A in the presence of catalyst so that the value of t_(1//2) for both the reactions is the same?

For a 1st order reaction, half life is 14 sec. The time required for the initial concentration to reduce to (1)(8) of its value is

Assertion: The decomposition of gaseous ammonia on a hot platinum surface is a zero order reaction at high pressure. Reason: For a zero order reaction, the rate of reaction is independent of initial concentration.