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Science Chemistry INTRODUCTORY CHEMISTRY-W/SEL.SOLN.MAN.

The amount of the radioactive sample that would remain after 11.4 days, which has a half-life value of 3.8 days is to be determined. Concept introduction: The half-life of a substance is the numerical value in which the given radioactive substance is assumed to be reduced to half of its initial amount. The half-life for a given substance is represented by t 1/2 . In case, the decay of a radioactive substance is exponential, it will remain constant for the life time of the substance. After each half-life period, the amount of the substance is reduced to half of the initial number. The time required for the decay of the substance to a given amount of substance can be calculated using the formula mentioned below: N t = N 0 × e ( − 0 .693 × t k ) In the above equation, ‘N t ’ represents the mass of the radioactive substance after a certain time interval t, ‘N 0 ’ indicates the initial mass of the radioactive material, ‘k’ represents the decay constant and ‘t’ represents the time required to reach the value of N t .

The amount of the radioactive sample that would remain after 11.4 days, which has a half-life value of 3.8 days is to be determined. Concept introduction: The half-life of a substance is the numerical value in which the given radioactive substance is assumed to be reduced to half of its initial amount. The half-life for a given substance is represented by t 1/2 . In case, the decay of a radioactive substance is exponential, it will remain constant for the life time of the substance. After each half-life period, the amount of the substance is reduced to half of the initial number. The time required for the decay of the substance to a given amount of substance can be calculated using the formula mentioned below: N t = N 0 × e ( − 0 .693 × t k ) In the above equation, ‘N t ’ represents the mass of the radioactive substance after a certain time interval t, ‘N 0 ’ indicates the initial mass of the radioactive material, ‘k’ represents the decay constant and ‘t’ represents the time required to reach the value of N t .

Solution Summary: The author explains that the half-life of a given radioactive substance is represented by t 1/2. The amount of the isotope, which weighs 2.45 grams is given as

INTRODUCTORY CHEMISTRY-W/SEL.SOLN.MAN.

INTRODUCTORY CHEMISTRY-W/SEL.SOLN.MAN.

6th Edition

ISBN: 9780134845609

Author: Tro

Publisher: PEARSON

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Question

Chapter 17, Problem 75E

Interpretation Introduction

Interpretation:

The amount of the radioactive sample that would remain after 11.4 days, which has a half-life value of 3.8 days is to be determined.

Concept introduction:

The half-life of a substance is the numerical value in which the given radioactive substance is assumed to be reduced to half of its initial amount. The half-life for a given substance is represented by t_1/2.

In case, the decay of a radioactive substance is exponential, it will remain constant for the life time of the substance.

After each half-life period, the amount of the substance is reduced to half of the initial number.

The time required for the decay of the substance to a given amount of substance can be calculated using the formula mentioned below:

Nt=N0×e(−0.693×tk)

In the above equation, ‘N_t’ represents the mass of the radioactive substance after a certain time interval t, ‘N₀’ indicates the initial mass of the radioactive material, ‘k’ represents the decay constant and ‘t’ represents the time required to reach the value of N_t.

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Chapter 17, Problem 74E

Chapter 17, Problem 76E

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Chapter 17 Solutions

INTRODUCTORY CHEMISTRY-W/SEL.SOLN.MAN.

Ch. 17 - Prob. 1SAQ Ch. 17 - Prob. 2SAQ Ch. 17 - Prob. 3SAQ Ch. 17 - Prob. 4SAQ Ch. 17 - Prob. 5SAQ Ch. 17 - Prob. 6SAQ Ch. 17 - Prob. 7SAQ Ch. 17 - Prob. 8SAQ Ch. 17 - Prob. 9SAQ Ch. 17 - Prob. 10SAQ

Ch. 17 - Prob. 1E Ch. 17 - Prob. 2E Ch. 17 - Prob. 3E Ch. 17 - Prob. 4E Ch. 17 - Prob. 5E Ch. 17 - Prob. 6E Ch. 17 - Prob. 7E Ch. 17 - Prob. 8E Ch. 17 - Prob. 9E Ch. 17 - Prob. 10E Ch. 17 - Prob. 11E Ch. 17 - Prob. 12E Ch. 17 - Prob. 13E Ch. 17 - Prob. 14E Ch. 17 - Prob. 15E Ch. 17 - Prob. 16E Ch. 17 - Prob. 17E Ch. 17 - Prob. 18E Ch. 17 - Prob. 19E Ch. 17 - Prob. 20E Ch. 17 - Prob. 21E Ch. 17 - Prob. 22E Ch. 17 - Prob. 23E Ch. 17 - Prob. 24E Ch. 17 - Prob. 25E Ch. 17 - Prob. 26E Ch. 17 - Prob. 27E Ch. 17 - Prob. 28E Ch. 17 - Prob. 29E Ch. 17 - Prob. 30E Ch. 17 - Prob. 31E Ch. 17 - Prob. 32E Ch. 17 - Prob. 33E Ch. 17 - Prob. 34E Ch. 17 - Prob. 35E Ch. 17 - Prob. 36E Ch. 17 - Prob. 37E Ch. 17 - Prob. 38E Ch. 17 - Prob. 39E Ch. 17 - Prob. 40E Ch. 17 - Prob. 41E Ch. 17 - Prob. 42E Ch. 17 - Prob. 43E Ch. 17 - Prob. 44E Ch. 17 - Prob. 45E Ch. 17 - Prob. 46E Ch. 17 - Prob. 47E Ch. 17 - Prob. 48E Ch. 17 - Prob. 49E Ch. 17 - Prob. 50E Ch. 17 - Draw the symbol for the isotope of lead that...Ch. 17 - Prob. 52E Ch. 17 - Prob. 53E Ch. 17 - Prob. 54E Ch. 17 - Prob. 55E Ch. 17 - Prob. 56E Ch. 17 - Prob. 57E Ch. 17 - Prob. 58E Ch. 17 - Prob. 59E Ch. 17 - Prob. 60E Ch. 17 - Prob. 61E Ch. 17 - Prob. 62E Ch. 17 - Prob. 63E Ch. 17 - Prob. 64E Ch. 17 - Prob. 65E Ch. 17 - Prob. 66E Ch. 17 - Prob. 67E Ch. 17 - Prob. 68E Ch. 17 - Prob. 69E Ch. 17 - Prob. 70E Ch. 17 - Prob. 71E Ch. 17 - Prob. 72E Ch. 17 - Prob. 73E Ch. 17 - Prob. 74E Ch. 17 - Prob. 75E Ch. 17 - Prob. 76E Ch. 17 - Prob. 77E Ch. 17 - Prob. 78E Ch. 17 - Prob. 79E Ch. 17 - Prob. 80E Ch. 17 - Prob. 81E Ch. 17 - Prob. 82E Ch. 17 - Prob. 83E Ch. 17 - Prob. 84E Ch. 17 - Prob. 85E Ch. 17 - Prob. 86E Ch. 17 - Prob. 87E Ch. 17 - Prob. 88E Ch. 17 - Prob. 89E Ch. 17 - Prob. 90E Ch. 17 - Prob. 91E Ch. 17 - 92. The fusion of deuterium and tritium produces J...Ch. 17 - Prob. 93E Ch. 17 - Prob. 94E Ch. 17 - Prob. 95E Ch. 17 - Prob. 96E Ch. 17 - Prob. 97E Ch. 17 - Prob. 98E Ch. 17 - Prob. 99E Ch. 17 - Prob. 100E Ch. 17 - Prob. 101E Ch. 17 - Prob. 102E Ch. 17 - Prob. 103QGW Ch. 17 - Prob. 104QGW Ch. 17 - Prob. 105QGW Ch. 17 - Prob. 106QGW Ch. 17 - Prob. 107DIA

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