Time required for the iodine-131 radioisotope to decrease to 5.0 % of its original activity has to be calculated if the half-life is 8.04 days. Concept Introduction: For a radioactive isotope, the relative instability is expressed in terms of half-life. Half-life is the time required for half of the given quantity of the radioisotope to undergo radioactive decay. Half-life of the radioactive isotope is independent of the quantity of the radioactive isotope. Half-life of a radioactive isotope can be expressed as, t 1 / 2 = 0 .693 k − − − − − − − − − − − − − − ( 1 ) Number of disintegrations per unit time is known as the activity of the sample. The rate of radioactive decay can be expressed as, Rate of radioactive decay = activity = A = k N Where, A is the activity of sample. N is the number of radioactive atoms. k is the first-order rate constant or decay constant. If initial activity of the sample is A 0 at t 0 , then after time t , this will have a smaller activity A . If the number of radioactive atoms present initially is N 0 , then after time t , the number of radioactive atoms present will be N . A A 0 = k N k N 0 A A 0 = N N 0 − − − − − − − − − − − − − − − − ( 2 ) N / N 0 can be calculated using the integrated rate equation. ln N = − k t + ln N 0 − − − − − − − − − − − − − − ( 3 ) Rearranging equation (3) as shown below, ln N N 0 = − k t − − − − − − − − − − − − − − − − − − ( 4 ) Considering equation (2), the equation (3) can be rewritten in terms of fraction of radioactive atoms that is present after time t as, ln A A 0 = − k t − − − − − − − − − − − − − − − − − − ( 5 )

Question

Want to see the full answer?

Answer 1

Question

Chapter 18, Problem 34QRT

Interpretation Introduction

Interpretation:

Time required for the iodine-131 radioisotope to decrease to 5.0 % of its original activity has to be calculated if the half-life is 8.04 days.

Concept Introduction:

For a radioactive isotope, the relative instability is expressed in terms of half-life. Half-life is the time required for half of the given quantity of the radioisotope to undergo radioactive decay. Half-life of the radioactive isotope is independent of the quantity of the radioactive isotope. Half-life of a radioactive isotope can be expressed as,

    t1/2 = 0.693k −−−−−−−−−−−−−−(1)

Number of disintegrations per unit time is known as the activity of the sample. The rate of radioactive decay can be expressed as,

    Rate of radioactive decay = activity = A = kN

Where,

    A is the activity of sample.

    N is the number of radioactive atoms.

    k is the first-order rate constant or decay constant.

If initial activity of the sample is A0 at t0, then after time t, this will have a smaller activity A. If the number of radioactive atoms present initially is N0, then after time t, the number of radioactive atoms present will be N.

    AA0 = kNkN0AA0 = NN0 −−−−−−−−−−−−−−−−(2)

N/N0 can be calculated using the integrated rate equation.

    ln N = −kt + ln N0 −−−−−−−−−−−−−−(3)

Rearranging equation (3) as shown below,

    lnNN0 = −kt −−−−−−−−−−−−−−−−−−(4)

Considering equation (2), the equation (3) can be rewritten in terms of fraction of radioactive atoms that is present after time t as,

    lnAA0 = −kt −−−−−−−−−−−−−−−−−−(5)

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Students have asked these similar questions

Do the Lone Pairs get added bc its valence e's are a total of 6 for oxygen and that completes it or due to other reasons. How do we know the particular indication of such.

NGLISH b) Identify the bonds present in the molecule drawn (s) above. (break) State the function of the following equipments found in laboratory. Omka) a) Gas mask b) Fire extinguisher c) Safety glasses 4. 60cm³ of oxygen gas diffused through a porous hole in 50 seconds. How long w 80cm³ of sulphur(IV) oxide to diffuse through the same hole under the same conditions (S-32.0.0-16.0) (3 m 5. In an experiment, a piece of magnesium ribbon was cleaned with steel w clean magnesium ribbon was placed in a crucible and completely burnt in oxy cooling the product weighed 4.0g a) Explain why it is necessary to clean magnesium ribbon. Masterclass Holiday assignmen PB 2

Hi!! Please provide a solution that is handwritten. Ensure all figures, reaction mechanisms (with arrows and lone pairs please!!), and structures are clearly drawn to illustrate the synthesis of the product as per the standards of a third year organic chemistry course. ****the solution must include all steps, mechanisms, and intermediate structures as required. Please hand-draw the mechanisms and structures to support your explanation. Don’t give me AI-generated diagrams or text-based explanations, no wordy explanations on how to draw the structures I need help with the exact mechanism hand drawn by you!!! I am reposting this—ensure all parts of the question are straightforward and clear or please let another expert handle it thanks!!