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Science Chemistry Introducing Chemistry

Calculate the amount of iron-59 left in the sample after 178 days . Concept Introduction: Half-life is the time taken by the quantity to reduce to its initial value. In other words, the time taken by the parent nuclides in radioactive decay is half to that of the daughter nuclides. The total number of half-lives is calculated as: T = n × t 1 / 2 Here, T is the time required for decay, n is the number of half-lives and t 1 / 2 is the half-life. The amount left in the sample is determined by: N = N 0 × ( 1 2 ) n Here, N is the amount of sample left after time T and N 0 is the initial amount of the sample.

Calculate the amount of iron-59 left in the sample after 178 days . Concept Introduction: Half-life is the time taken by the quantity to reduce to its initial value. In other words, the time taken by the parent nuclides in radioactive decay is half to that of the daughter nuclides. The total number of half-lives is calculated as: T = n × t 1 / 2 Here, T is the time required for decay, n is the number of half-lives and t 1 / 2 is the half-life. The amount left in the sample is determined by: N = N 0 × ( 1 2 ) n Here, N is the amount of sample left after time T and N 0 is the initial amount of the sample.

Solution Summary: The author calculates the amount of iron-59 left in the sample after 178days.

Introducing Chemistry

Introducing Chemistry

6th Edition

ISBN: 9780134557373

Author: Tro

Publisher: PEARSON

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Concept explainers

Writing and Balancing Nuclear Equations

A nuclear equation is a symbolic representation of a nuclear reaction using certain symbols. It is studied in nuclear chemistry and nuclear physics.

Question

Chapter 17, Problem 6SAQ

Interpretation Introduction

Interpretation: Calculate the amount of iron-59 left in the sample after 178 days.

Concept Introduction: Half-life is the time taken by the quantity to reduce to its initial value. In other words, the time taken by the parent nuclides in radioactive decay is half to that of the daughter nuclides.

The total number of half-lives is calculated as:

T = n × t1/2

Here, T is the time required for decay, n is the number of half-lives and t1/2 is the half-life.

The amount left in the sample is determined by:

N = N0 × (12)n

Here, N is the amount of sample left after time T and N0 is the initial amount of the sample.

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Chapter 17, Problem 5SAQ

Chapter 17, Problem 7SAQ

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Introducing Chemistry

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