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Science Chemistry CONNECT IA GENERAL ORGANIC&BIO CHEMISTRY

The half-life of the radioactive element if its amount gets decreased from 0.36 g to 90 mg in 22 minutes needs to be determined. Concept Introduction: Half-life − It is the time required by original radioactive element to reduce to the half of its initial concentration. Thus, at half-life ( t 1 / 2 ) Concentration of reactant = Initial concentration 2 The decay of the radioactive element can be described by the following formula- N ( t ) = N 0 ( 1 2 ) t t 1 / 2 Where N(t) − amount of reactant at time t N 0 − Initial concentration of the reactant t 1 / 2 − Half-life of the decaying reactant

The half-life of the radioactive element if its amount gets decreased from 0.36 g to 90 mg in 22 minutes needs to be determined. Concept Introduction: Half-life − It is the time required by original radioactive element to reduce to the half of its initial concentration. Thus, at half-life ( t 1 / 2 ) Concentration of reactant = Initial concentration 2 The decay of the radioactive element can be described by the following formula- N ( t ) = N 0 ( 1 2 ) t t 1 / 2 Where N(t) − amount of reactant at time t N 0 − Initial concentration of the reactant t 1 / 2 − Half-life of the decaying reactant

Solution Summary: The author explains the half-life of the radioactive element if its amount gets decreased from 0.36 g to 90 mg in 22 minutes needs to be determined.

CONNECT IA GENERAL ORGANIC&BIO CHEMISTRY

CONNECT IA GENERAL ORGANIC&BIO CHEMISTRY

4th Edition

ISBN: 9781260562620

Author: SMITH

Publisher: MCG

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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 10, Problem 50P

Interpretation Introduction

Interpretation:

The half-life of the radioactive element if its amount gets decreased from 0.36 g to 90 mg in 22 minutes needs to be determined.

Concept Introduction:

Half-life − It is the time required by original radioactive element to reduce to the half of its initial concentration. Thus, at half-life ( t1/2 )

Concentration of reactant= Initial concentration2

The decay of the radioactive element can be described by the following formula-

N(t)=N0(12)tt 1/2

Where

N(t) − amount of reactant at time t

N₀ − Initial concentration of the reactant

t₁_/₂ − Half-life of the decaying reactant

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Chapter 10, Problem 49P

Chapter 10, Problem 51P

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CONNECT IA GENERAL ORGANIC&BIO CHEMISTRY

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