Chemistry
Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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### Calculating the Molar Mass of Cobalt(III) Iodide

Complete the table below for calculating the molar mass of the ionic compound cobalt(III) iodide.

|                  | Formula | Molar mass of ion | Number of ions | Mass of ion in one mole of cobalt(III) iodide |
| ---------------- | ------- | ----------------- | -------------- | -------------------------------------------- |
| **Cation**       | Co³⁺    |                   | ×              | =                                              g |
| **Anion**        | I⁻      |                   | ×              | =                                              g |

Molar mass cobalt(III) iodide = _______________ g/mol

---

This table is designed to aid in the calculation of the molar mass of cobalt(III) iodide by breaking down the contributions of each constituent ion. 

For each ion (cation and anion), you will need to:
1. Identify its formula.
2. Determine the molar mass of the ion (in g/mol).
3. Note the number of ions present in one formula unit of cobalt(III) iodide.
4. Calculate the total mass of each ion in one mole of cobalt(III) iodide.
5. Sum up the mass of the cation and the anions to find the total molar mass of cobalt(III) iodide.

Insert the values into their respective locations to complete the table. The final cell at the bottom will provide the total molar mass of cobalt(III) iodide after the sums are calculated.
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Transcribed Image Text:### Calculating the Molar Mass of Cobalt(III) Iodide Complete the table below for calculating the molar mass of the ionic compound cobalt(III) iodide. | | Formula | Molar mass of ion | Number of ions | Mass of ion in one mole of cobalt(III) iodide | | ---------------- | ------- | ----------------- | -------------- | -------------------------------------------- | | **Cation** | Co³⁺ | | × | = g | | **Anion** | I⁻ | | × | = g | Molar mass cobalt(III) iodide = _______________ g/mol --- This table is designed to aid in the calculation of the molar mass of cobalt(III) iodide by breaking down the contributions of each constituent ion. For each ion (cation and anion), you will need to: 1. Identify its formula. 2. Determine the molar mass of the ion (in g/mol). 3. Note the number of ions present in one formula unit of cobalt(III) iodide. 4. Calculate the total mass of each ion in one mole of cobalt(III) iodide. 5. Sum up the mass of the cation and the anions to find the total molar mass of cobalt(III) iodide. Insert the values into their respective locations to complete the table. The final cell at the bottom will provide the total molar mass of cobalt(III) iodide after the sums are calculated.
### Calculating the Molar Mass of Chromium(II) Bromide

Complete the table below for calculating the molar mass of the ionic compound chromium(II) bromide.

|                    | Formula  | Molar mass of ion | Number of ions | Mass of ion in one mole of chromium(II) bromide |
|--------------------|----------|-------------------|----------------|------------------------------------------------|
| **Cation**         | Cr²⁺     | ___ g/mol         | × ___ mol      | = ___ g                                        |
| **Anion**          | Br⁻      | ___ g/mol         | × ___ mol      | = ___ g                                        |

**Molar mass of chromium(II) bromide = ** ___ g/mol

### Instructions

1. **Identify the ions**: Chromium(II) bromide consists of Cr²⁺ (chromium ion with a +2 charge) and Br⁻ (bromide ion).
2. **Determine the molar mass of each ion**:
   - Use the periodic table to find the molar mass of chromium (Cr) and bromine (Br).
   - Chromium (Cr) has a molar mass of approximately 52 g/mol.
   - Bromine (Br) has a molar mass of approximately 80 g/mol.
3. **Calculate the number of ions** in the formula:
   - Chromium(II) bromide is typically represented as CrBr₂, meaning one Cr²⁺ ion pairs with two Br⁻ ions.
4. **Compute the mass of each ion** in one mole of the compound by multiplying the molar mass of the ion by the number of ions.
5. **Sum the masses** of the cation and the anions to get the total molar mass of the compound.

By filling out the table, you will determine the mass contributions of the individual ions in one mole of chromium(II) bromide and thus the molar mass of the compound.
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Transcribed Image Text:### Calculating the Molar Mass of Chromium(II) Bromide Complete the table below for calculating the molar mass of the ionic compound chromium(II) bromide. | | Formula | Molar mass of ion | Number of ions | Mass of ion in one mole of chromium(II) bromide | |--------------------|----------|-------------------|----------------|------------------------------------------------| | **Cation** | Cr²⁺ | ___ g/mol | × ___ mol | = ___ g | | **Anion** | Br⁻ | ___ g/mol | × ___ mol | = ___ g | **Molar mass of chromium(II) bromide = ** ___ g/mol ### Instructions 1. **Identify the ions**: Chromium(II) bromide consists of Cr²⁺ (chromium ion with a +2 charge) and Br⁻ (bromide ion). 2. **Determine the molar mass of each ion**: - Use the periodic table to find the molar mass of chromium (Cr) and bromine (Br). - Chromium (Cr) has a molar mass of approximately 52 g/mol. - Bromine (Br) has a molar mass of approximately 80 g/mol. 3. **Calculate the number of ions** in the formula: - Chromium(II) bromide is typically represented as CrBr₂, meaning one Cr²⁺ ion pairs with two Br⁻ ions. 4. **Compute the mass of each ion** in one mole of the compound by multiplying the molar mass of the ion by the number of ions. 5. **Sum the masses** of the cation and the anions to get the total molar mass of the compound. By filling out the table, you will determine the mass contributions of the individual ions in one mole of chromium(II) bromide and thus the molar mass of the compound.
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