In an agriculture experiment, a solution containing 1 mole of a radioactive meterial `(t_(1//2)=14.3 days)`was injected into the roots of a plants.the plant was allowed 70 hours to settle down and then activity eas measured in its fruit. If the activity measured was `1 mu Ci` what per cent of activity is transmitted from the root to the fruit in steady state?

A small quantity of solution containing Na^24 radio nuclide (half-life=15 h) of activity 1.0 microcurie is injected into the blood of a person. A sample of the blood of volume 1cm^3 taken after 5h shows an activity of 296 disintegrations per minute. Determine the total volume of the blood in the body of the person. Assume that the radioactive solution mixes uniformly in the blood of person. (1 curie =3.7 xx 10^10 disintegrations per second)

A small quantity of solution containing Na^24 radio nuclide (half-life=15 h) of activity 1.0 microcurie is injected into the blood of a person. A sample of the blood of volume 1cm^3 taken after 5h shows an activity of 296 disintegrations per minute. Determine the total volume of the blood in the body of the person. Assume that the radioactive solution mixes uniformly in the blood of person. (1 curie =3.7 xx 10^10 disintegrations per second)

In an experiment on two radioactive isotopes of an element (which do not decay into each other), their number of atoms ratio at a given instant was found to be 3 . The rapidly decaying isotope has large mass and an activity of 1.0muCi initially. The half-lives of the two isotopes are known to be 12 hours and 16 hours. what would be the activity of each isotope and their number of atoms ration after two days?

The initial activity of a certain radioactive iostope was measured as 16000 counts min.^(-1) . Given that the only activity measured was due to this isotaope and that its activity after 12 h was 2100 counts min.^(-1) , its half-life, in hours, is nearest to [Given log_(e) (7.2)=2 ].

A solution containing active cobalt 60/27 Co having activity of 0.8 muCi and decay constant lambda is injected in an animal's body. If 1cm^(3) of blood is drawn from the animal's body after 10hrs of injection , the activity found was 300 decays per minute. What is the volume of blood that is flowing in the body ? ( 1 Ci = 3.7 xx 10^(10) decays per second and at t = 10 hrs e^(-lambdat) = 0.84 )

In a hypothetical reaction A(aq)hArr2B(aq)+C(aq) ( 1^(st) order decomposition) 'A' is optically active (dextro-rototory) while 'B' and 'C' are optically inactive but 'B' takes part in a titration reaction (fast reaction) with H_2O_2 .Hence the progress of reaction can be monitored by measuring rotation of plane of polarised light or by measuring volume of H_2O_2 consumed in titration. In an experiment, the optical rotation was found to be theta=30^@C at t=20 min. and theta=15^(@) at t=50min from start of the reaction.If the progress would have been monitored by titration method, volume of H_2O_2 consumed at t=30 min.(from start) is 30 ml then volume of H_2O_2 consumed at t=90 min, will be: