The count rate of nuclear radiation comi...

The count rate of nuclear radiation coming from a radioactive sample containing `I^128` varies with time as follows.
Time t (minute): 0 25 50 75 100
Count rate `R(10^9 s^(-1))`: 30 16 8.0 3.8 2.0
(a) plot `In (R_0//R)`against t. (b) From the slope of the best straight line through the points,Find the decay constant `lambda`.(c ) Calculate the half-life `t_(1//2)`.

Text Solution

Verified by Experts

The correct Answer is:

A, B, C

(a) Here we should take `R_(0)` at time `t_(0)`
`= 30 xx 10^(9) s^(-1)`
`:. (i) In (R_(0)/R) = In ((30 xx 10^(9))/(30 xx 10^(9))) = 0`
(ii)` In (R_0/R_2) = In ((30 xx 10^(9))/(16xx 10^(9))) = 0.63`
(iii) In (R_(0)/R_3) = In ((30 xx 10^(9))/(8 xx 10^(9))) = 1.35`
(iv) `In (R_0/R_4) = In ((30 xx 10^(9))/(3.8 xx (10^9))) = 2.06`
(v) `In (R_0/R_5) = In ((30 xx (10^9))/(2 xx (10^9))) = 2.7`
(b) `:. The decay constant lambda = 0.028 min -1`
`:. The half life period `
`t_(1/2) = (0.693/lambda)`
`= (0.693/0.028) = 25 min` .

Topper's Solved these Questions

THE NUCLEOUS
HC VERMA ENGLISH|Exercise Short answer|12 Videos
THE NUCLEOUS
HC VERMA ENGLISH|Exercise Objective 2|10 Videos
SPEED OF LIGHT
HC VERMA ENGLISH|Exercise Question for short Answer|5 Videos
THE SPECIAL THEORY OF RELATIVITY
HC VERMA ENGLISH|Exercise Short answer|2 Videos

Similar Questions

Explore conceptually related problems

The count rate of a radioactive sample falls from 4.0xx10^6 s^(-1) to 1.0xx10^6 s^(-1) in 20 hours. What will be the count rate after 100 hours from beginning ?

A nuclear reactor starts producing a radionuclide of half - life T at a constant rate R starting at time t = 0 The activity of the radionuclide at t = T is found to the A. Then (R )/(4) is

The graph of a line in the xy-plane has slope (1)/(2) and contains the point (0, 7) . The graph of a seconds line passes through the points (0, 0) and (-1, 3) . If the two lines intersect at the point (r, s) , what is the value of r+s ?

Using a nuclear counter the count rate of emitted particles from a radioactive source is measured. At t=0 it was 1600 counts per second and t = 8 seconds it was 100 counts per second. The count rate observed, as counts per seconds, at t=6, seconds is close to :

At time t=0 N_(1) nuclei of decay constant lambda_(1)& N_(2) nuclei of decay constant lambda_(2) are mixed. The decay rate of the mixture at time 't' is:

The time constant of an LR circuit is 40 ms. The circuit is connected at t= 0 and the steady state current is found ot be 2.0 A. Find the current at (a) t= 10 ms (b) t =20ms, (c ) t =100ms and (d) t = 1 s.

A stable nuclei C is formed from two radioactive nuclei A and B with decay constant of lambda_1 and lambda_2 respectively. Initially, the number of nuclei of A is N_0 and that of B is zero. Nuclei B are produced at a constant rate of P. Find the number of the nuclei of C after time t.

Rate constant k of a reaction varies with temperature according to the equation logk = constant -E_a/(2.303R)(1/T) where E_a is the energy of activation for the reaction . When a graph is plotted for log k versus 1/T , a straight line with a slope - 6670 K is obtained. Calculate the energy of activation for this reaction

A particle is moving on a straight line. Its velocity at time t is (8-2t)m//s . What is the total distance covered from t=0 to t=6s ?

The magnetic field through a single loop of wire, 12 cm in radius and of 8.5Omega resistance, changes with time as shown in figure. Calculate the emf in the loop as a function of time. Consider the time intervals (a) t = 0 to t =2.0 s (b) t =2.0 s to t =4.0 s (c) t =4.0 s to t =6.0 s . The magnetic field is perpendicular to the plane of the loop.

HC VERMA ENGLISH-THE NUCLEOUS-Exercise

When charcoal is prepared from a living tree, it shows a disintergrati...
Text Solution
|
Natural water contains a small amount of tritium (H1^3). This isotope ...
Text Solution
|
The count rate of nuclear radiation coming from a radioactive sample c...
Text Solution
|
The half-life of K^40 is 1.30xx10^9 y. A sample if 1.00g of pure KCI g...
Text Solution
|
Hg80^197 decay to Au79^197 through electron capture with a decay const...
Text Solution
|
A radioactive isotope is being produced at a constant rate dN//dt=R in...
Text Solution
|
Consider the situation of the previous problem.suppose the production ...
Text Solution
|
In an agriculture experiment, a solution containing 1 mole of a radioa...
Text Solution
|
A vessel of vloume 125 cm^3 contains tritium (H^3,t(1//2)=12.3 y) at 5...
Text Solution
|
(Bi)212^83 can disintegrate either by emitting an alpha -particle or b...
Text Solution
|
A sample contains a mixture of Ag^110 and Ag^108 isotopes each having ...
Text Solution
|
A human body excreates (removes by waste discharge, sweating, etc,) ce...
Text Solution
|
A charged capacitor of capacitance C is discharged through a resistanc...
Text Solution
|
Radioactive isotopes are produced in a nuclear physics experiment at a...
Text Solution
|
Calculate the energy released by 1 g of natural uranium assuming 200 M...
Text Solution
|
A uranium rector develops thermal energy at a rate of 300 MW. Calculat...
Text Solution
|
A town has a population of 1 million. The average electric power neede...
Text Solution
|
Calculate the Q-values of the following fusion reactions: (a)1^2H+1^2H...
Text Solution
|
Consider the fusion in helium plasma. Find the temperature at which th...
Text Solution
|
Calculate the Q-values of the fusion reaction He^4+He^4 = Be^8 In s...
Text Solution
|