What is the density of a sample of SO3 gas at 298 K and 2.0 atm? density of SO3 = [?] g/L Hint: What is the equation that relates molar mass and density? Do not round until the end. density (g/L) Enter

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## Determining the Density of SO₃ Gas

### Problem Statement:
**What is the density of a sample of SO₃ gas at 298 K and 2.0 atm?**

### Calculation:
#### Density of SO₃ = [?] g/L

### Hint:
**What is the equation that relates molar mass and density?** 

### Instructions:
**Do not round until the end.**

#### Enter density (g/L):

[Text Box] [Enter Button]

---

**Explanation:**

To solve for the density of SO₃ gas, you will need to use the Ideal Gas Law equation and the formula relating molar mass and density.

1. **Ideal Gas Law**: 
   \[
   PV = nRT
   \]
   Where:
   - \( P \) = Pressure (atm)
   - \( V \) = Volume (L)
   - \( n \) = Number of moles
   - \( R \) = Ideal gas constant (\(0.0821 \, \text{L·atm·K}^{-1}\text{·mol}^{-1}\))
   - \( T \) = Temperature (K)

2. **Density Formula**:
   \[
   \rho = \frac{m}{V}
   \]
   Where:
   - \( \rho \) = Density (g/L)
   - \( m \) = Mass (g)
   - \( V \) = Volume (L)

Combining these formulas, and using the molar mass of SO₃, calculate the density. 

For more detailed calculation, refer to related sections on using the Ideal Gas Law and density formula for gases.
Transcribed Image Text:## Determining the Density of SO₃ Gas ### Problem Statement: **What is the density of a sample of SO₃ gas at 298 K and 2.0 atm?** ### Calculation: #### Density of SO₃ = [?] g/L ### Hint: **What is the equation that relates molar mass and density?** ### Instructions: **Do not round until the end.** #### Enter density (g/L): [Text Box] [Enter Button] --- **Explanation:** To solve for the density of SO₃ gas, you will need to use the Ideal Gas Law equation and the formula relating molar mass and density. 1. **Ideal Gas Law**: \[ PV = nRT \] Where: - \( P \) = Pressure (atm) - \( V \) = Volume (L) - \( n \) = Number of moles - \( R \) = Ideal gas constant (\(0.0821 \, \text{L·atm·K}^{-1}\text{·mol}^{-1}\)) - \( T \) = Temperature (K) 2. **Density Formula**: \[ \rho = \frac{m}{V} \] Where: - \( \rho \) = Density (g/L) - \( m \) = Mass (g) - \( V \) = Volume (L) Combining these formulas, and using the molar mass of SO₃, calculate the density. For more detailed calculation, refer to related sections on using the Ideal Gas Law and density formula for gases.
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