Introduction to Chemistry
Introduction to Chemistry
4th Edition
ISBN: 9780073523002
Author: Rich Bauer, James Birk Professor Dr., Pamela S. Marks
Publisher: McGraw-Hill Education
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Chapter 6, Problem 139QP

(A)

Interpretation Introduction

Interpretation:

The number of moles of ions in 2.5 mol  of MgNO32 and the incorrect number of moles of MgNO32 that dissolve in 2.5 mol  of MgNO32 are to be determined.

(A)

Expert Solution
Check Mark

Explanation of Solution

The given balanced equation shows that one mole of MgNO32 dissolves and dissociates into Mg2+ and 2 NO3 ions, respectively. Thus, a total of three moles of ions are present in one mole of the MgNO32 that dissolved. Therefore, the number of moles of ions in one mole of MgNO32 is calculated as follows.

 Total moles of ions= 2.5 mol MgNO32×3 moles of ionsmol MgNO32 =7.5 moles ions

Therefore, the calculated moles of MgNO32 is matched with 7.5 moles MgNO32 .

Three moles of ions are dissolved in one mole MgNO32 . Therefore, the 2.5 moles of ions dissolved in one mole of MgNO32 is calculated as:

  moles of ions= 1 mol MgNO323 moles ions×2.5 moles ions=0.83 moles MgNO32

(B)

Interpretation Introduction

Interpretation:

The number of moles of ions in 2.5 mol  of MgNO32 is to be determined and the incorrect number of moles of MgNO32 that dissolve in 5.0 mol  of MgNO32 are to be determined.

(B)

Expert Solution
Check Mark

Explanation of Solution

The given balanced equation shows that one mole of MgNO32 dissolves and dissociates into Mg2+ and 2 NO3 ions, respectively. Thus, a total of three moles of ions are present in one mole of the MgNO32 that dissolved. Therefore, the number of moles of ions in one mole of MgNO32 is calculated as follows.

 Total moles of ions= 2.5 mol MgNO32×3 moles of ionsmol MgNO32 =7.5 moles ions

Therefore, the calculated moles of MgNO32 is matched with 7.5 moles MgNO32 .

Three moles of ions are dissolved in one mole MgNO32 . Therefore, the 5.0 mol  of ions dissolved in one mole of MgNO32 is calculated as:

  moles of ions= 1 mol MgNO323 moles ions×5.0 moles ions =1.7 moles MgNO32

(C)

Interpretation Introduction

Interpretation:

The number of moles of ions that dissolve in 2.5 mol  of MgNO32 is to be determined.

(C)

Expert Solution
Check Mark

Explanation of Solution

The given balanced equation shows that one mole of MgNO32 dissolves and dissociates into Mg2+ and 2 NO3 ions, respectively. Thus, a total of three moles of ions are present in one mole of the MgNO32 that dissolved. Therefore, the number of moles of ions in one mole of MgNO32 is calculated as follows.

 Total moles of ions= 2.5 mol MgNO32×3 moles of ionsmol MgNO32 =7.5 moles ions

Therefore, the calculated moles of MgNO32 is matched with 7.5 moles MgNO32 . Hence, this is the correct option.

(D)

Interpretation Introduction

Interpretation:

The number of moles of ions in 2.5 mol  of MgNO32 and the incorrect number of moles of MgNO32 that dissolve in 20 mol  of MgNO32 are to be determined.

(D)

Expert Solution
Check Mark

Explanation of Solution

The given balanced equation shows that one mole of MgNO32 dissolves and dissociates into Mg2+ and 2 NO3 ions, respectively. Thus, a total of three moles of ions are present in one mole of the MgNO32 that dissolved. Therefore, the number of moles of ions in one mole of MgNO32 is calculated as follows.

 Total moles of ions= 2.5 mol MgNO32×3 moles of ionsmol MgNO32 =7.5 moles ions

Therefore, the calculated moles of MgNO32 is matched with 7.5 moles MgNO32 .

Three moles of ions are dissolved in one mole MgNO32 . Therefore, the 20 mol  of ions dissolved in one mole of MgNO32 is calculated as:

  moles of ions= 1 mol MgNO323 moles ions×20 moles ions =6.7 mol MgNO32

(E)

Interpretation Introduction

Interpretation:

The number of moles of ions in 2.5 mol  of MgNO32 and the incorrect number of moles of MgNO32 that dissolve in 0.83 mol  of MgNO32 are to be determined.

(E)

Expert Solution
Check Mark

Explanation of Solution

The given balanced equation shows that one mole of MgNO32 dissolves and dissociates into Mg2+ and 2 NO3 ions, respectively. Thus, a total of three moles of ions are present in one mole of the MgNO32 that dissolved. Therefore, the number of moles of ions in one mole of MgNO32 is calculated as follows.

 Total moles of ions= 2.5 mol MgNO32×3 moles of ionsmol MgNO32 =7.5 moles ions

Therefore, the calculated moles of MgNO32 is matched with 7.5 moles MgNO32 .

Three moles of ions are dissolved in one mole MgNO32 . Therefore, the 0.83 mol  of ions dissolved in one mole of MgNO32 is calculated as:

mol of ions= 1 mol MgNO323 moles ions×0.83 moles ions =0.28 mol MgNO32

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Chapter 6 Solutions

Introduction to Chemistry

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