The half-life of 40 k is 1.30xx10^9 y. A...

The half-life of `40 k` is `1.30xx10^9` y. A sample if 1.00g of pure KCI gives 160 counts `s^(-1)`.Calculate the relative abundance of ``^40K`(fraction of ``^40K`present ) in natural potassium .

Similar Questions

Explore conceptually related problems

The half-life of K^40 is 1.30xx10^9 y. A sample if 1.00g of pure KCI gives 160 counts s^(-1) .Calculate the relative abundance of K^40 (fraction of K^40 present ) in natural potassium .

The half-life of K^40 is 1.30xx10^9 y. A sample if 1.00g of pure KCI gives "160 dps" . The percentage fraction of K^40 present in the sample is:

2 g of pure CsCl gives 200 counts s^(-1) . Calculate the relative abundance of Cs^(137) in natural caesium, if the half-life of Cs^(137) is 30 years.

The half life of a 1st order reaction is 1min 40 seconds. Calculate its rate constant.

The half-life of a radioactive substance is 40 days. A sample of it contains 1 mole nuclie. Calculate the number of disintegrations in the first second.

The half life of a 1^(st) order reaction is 1 min 40 seconds. Calculate its rate constant (k)

The rate constant of a reaction is 1.2 xx10^(-3) s^(-1) at 30^@C and 2.1xx10^(-3)s^(-1) at 40^@C . Calculate the energy of activation of the reaction.

The activity of a radioactive sample falls from 600 s^(-1) to 500 s^(-1) in 40 minutes. Calculate its half-life.

The half-life of `40 k` is `1.30xx10^9` y. A sample if 1.00g of pure KCI gives 160 counts `s^(-1)`.Calculate the relative abundance of ``^40K`(fraction of ``^40K`present ) in natural potassium .

Similar Questions

Recommended Questions