The decay constant of a radioactive substance is `0.173 ``("years")^(-1)`. Therefore:

The decay constant of the end product of a radioactive series is

The mean lives of a radioactive substance are 1620 years and 405 years for alpha emission and beta emission respectively. Find out the time during which three fourth of a sample will decay if it is decaying both by alpha -emission and beta -emission simultaneously. (log_e4=1.386).

Disintegration constant of a radioactive material is lambda :

The half life of a radioactive substance is 20 minutes . The approximate time interval (t_(2) - t_(1)) between the time t_(2) when (2)/(3) of it had decayed and time t_(1) when (1)/(3) of it had decay is

The equilibrium constant Kc for A_((g))hArrB_((g)) is 2.5xx10^(-2) . The rate constant of the forward reaction is 0.05" sec"^(-1) . Calculate the rate constant of the reverse reaction.

The half life of a radioactive substance is T_(0) . At t=0 ,the number of active nuclei are N_(0) . Select the correct alternative.

A substance is in the solid from at 0^(@)C . The amount of heat added to this substance and its temperature is plotted in the graph . The specific heat capacity of the solid substance is 0.5 "cal//g"^(@)C . The mass of the substance is -

A substance is in the solid from at 0^(@)C . The amount of heat added to this substance and its temperature is plotted in the graph . The specific heat capacity of the solid substance is 0.5 "cal"//"g"^(@)C . Specific heat capacity in the liquid state is -

The rate constant of a reaction at 500 K and 700 K are 0.02 s^(-1) and 0.07 s^(-1) respectively .Calculate the values of E_(a) and A.