Consider two nuclei of the same radioactive nucclide . One of the nuclei was created in a supernova explsion 5 billions year ago . The probability of decay during the next time is

Consider a radioactive material of half-life 1.0 minute. If one of the nuclei decays now, the next one will decay

A radioactive nulei has half-life of 1.0 minute. If one of the nuclie decay now, the next nuclei will decay after:

At t=0 we begin to observe two identical radioactive nuclei with a half life of 5 min. At t=1 min one of the nuclei decays. Does that event increase or decrease the chance of the second nucleus decaying in the next 4 min. or is there no effect on the second nucleus?

In a sample of radioactive material, what percentage of the initial number of active nuclei will decay during one mean life ?

A radioactive sample contains two different types of radioactive nuclei. A-with half-time 5 days and B-type nuclei is 64 times that of B type of nuclei . Their decay rates will be equal when time a 9n days. Find the value of n.

The number of nuclei of two radioactive substance is the same and their half-lives are 1 year and 2 years respectively. The ratio of their activities after 6 years will be

A radicactive sample consider of two distinct species having equial number initially . The mean life time of one species is tau and that of the other is 5 tau . The decay prodects in both cases are stable . A plot is made of the total number of radioactive nuclei as a function of time , which of the following figure best represent the from of this plot?

Two identical nuclei A and B of the same radioactive element undergo beta^(-) decay. A emits a beta^(-) particle and changes to A' . B emits a beta^(-) particle and then a gamma -photon immediately afterwards, and changes to B .