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Science Chemistry LCPO CHEMISTRY W/MODIFIED MASTERING

The mass change in g/mol of NaCl for the reaction of sodium metal with chlorine gas to give sodium chloride needs to be determined. 2 Na (s) + Cl 2(g) → 2 NaCl (s) ΔE = - 820 kJ Concept introduction: In an atom, three sub-atomic particles which are arranged in a certain way to make the atom stable. The nuclear attraction force works between electrons and protons due to opposite charges. The force between protons and neutrons holds these particles together. It can be measured by measuring the amount of energy necessary to break these forces. It can be calculated with the help of Einstein’s mass − energy equation: ΔE= m × c 2 Here, m is mass and c is speed of light .

The mass change in g/mol of NaCl for the reaction of sodium metal with chlorine gas to give sodium chloride needs to be determined. 2 Na (s) + Cl 2(g) → 2 NaCl (s) ΔE = - 820 kJ Concept introduction: In an atom, three sub-atomic particles which are arranged in a certain way to make the atom stable. The nuclear attraction force works between electrons and protons due to opposite charges. The force between protons and neutrons holds these particles together. It can be measured by measuring the amount of energy necessary to break these forces. It can be calculated with the help of Einstein’s mass − energy equation: ΔE= m × c 2 Here, m is mass and c is speed of light .

Solution Summary: The author explains how the mass change in g/mol of NaCl for the reaction of sodium metal with chlorine gas to give sodium chloride needs to be determined.

LCPO CHEMISTRY W/MODIFIED MASTERING

LCPO CHEMISTRY W/MODIFIED MASTERING

8th Edition

ISBN: 9780135214756

Author: Robinson

Publisher: PEARSON

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Chapter 20, Problem 20.13P

Interpretation Introduction

Interpretation:

The mass change in g/mol of NaCl for the reaction of sodium metal with chlorine gas to give sodium chloride needs to be determined.

2 Na(s) + Cl2(g)→ 2 NaCl(s) ΔE = - 820 kJ

Concept introduction:

In an atom, three sub-atomic particles which are arranged in a certain way to make the atom stable. The nuclear attraction force works between electrons and protons due to opposite charges. The force between protons and neutrons holds these particles together. It can be measured by measuring the amount of energy necessary to break these forces.

It can be calculated with the help of Einstein’s mass − energy equation:

ΔE= m × c2

Here, m is mass and c is speed of light.

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Chapter 20, Problem 20.12A

Chapter 20, Problem 20.14A

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Chapter 20 Solutions

LCPO CHEMISTRY W/MODIFIED MASTERING

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