The value of `t_(0.875)/(t_(0.50)` for `n^(th)` order reaction is

The value of 23. 875-0.235=_____

t_(1//4) can be taken as the time taken for the concentration of a reactant to drop to 3//4 of its initial value. If the rate constant for a first order reaction is k, the t_(1//4) can be written as

Write the equation useful to calculate half-life (t_(1//2)) values for zero and first order reactions.

Give relation between half reaction time (t_(1//2)) and initial concentration of reactant for (n-1) order reaction

What is half-life (t_(1//2)) of a reaction ? Derive the equations for the 'half-life' value of zero and first order reactions.

In hypothetical reversible reaction underset((1M))(A)underset(t_(1//2)=2"min")overset(t_(1//2)=6.93"min")(hArr)underset((0.4M))(B) Forward reaction =1st order Backward reaction =0 order What is the rate of disappearance of A at the given moment?

Write the intergrated equation for a fiest order reaction in terms of [R], [R]_(0) and 't'.

Half life periods for a reaction at initial concentration of 0.1 M and 0.01 M are 5 and 50 minutes respectively. Then the order of reaction is