Number of `S-O` bond in `S_(2)O_(8) ^(2-)` and number of `S-S` bond in Rhombic sulphur?

To solve the question regarding the number of `S-O` bonds in `S2O8^(2-)` and the number of `S-S` bonds in rhombic sulfur, we will follow these steps: ### Step 1: Analyze the structure of `S2O8^(2-)` 1. **Identify the formula**: `S2O8^(2-)` indicates that there are 2 sulfur (S) atoms and 8 oxygen (O) atoms. 2. **Draw the structure**: The structure of `S2O8^(2-)` can be represented as: - Each sulfur atom is connected to oxygen atoms through single and double bonds. - The structure can be visualized as having a central `S` atom connected to `O` atoms, with some `S` atoms forming double bonds with `O`. - The overall connectivity shows that there are multiple `S-O` bonds. ### Step 2: Count the `S-O` bonds in `S2O8^(2-)` 1. **Count the bonds**: - In `S2O8^(2-)`, we can identify that there are 8 `S-O` bonds in total. - This includes both single and double bonds since a double bond consists of one single bond. ### Step 3: Analyze the structure of Rhombic Sulfur 1. **Identify the structure**: Rhombic sulfur is an allotrope of sulfur that has a crown-like structure. 2. **Draw the structure**: The rhombic sulfur consists of 8 sulfur atoms arranged in a crown shape. ### Step 4: Count the `S-S` bonds in Rhombic Sulfur 1. **Count the bonds**: - In rhombic sulfur, each sulfur atom is bonded to two other sulfur atoms. - Therefore, the total number of `S-S` bonds can be counted as follows: - Each of the 8 sulfur atoms forms bonds with its neighboring atoms, resulting in a total of 8 `S-S` bonds. ### Final Answer - The number of `S-O` bonds in `S2O8^(2-)` is **8**. - The number of `S-S` bonds in rhombic sulfur is **8**. ### Summary - **Number of `S-O` bonds in `S2O8^(2-)`: 8** - **Number of `S-S` bonds in Rhombic Sulfur: 8**