Assuming you started with 3.23 g of sodium bicarbonate and your actual yield of solid product is 1.20g, which reaction is more likely to be the correct one?

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Assuming you started with 3.23 g of sodium bicarbonate and your actual yield of solid product is 1.20g, which reaction is more likely to be the correct one?

 

**Chemical Equation Balancing and Calculations**

**Balance each of the following chemical equations (please add 1 where needed - even though we usually do not):**

1. \( \boxed{1} \) NaHCO₃ (s) → \( \boxed{1} \) NaOH (s) + \( \boxed{1} \) CO₂ (g)

2. \( \boxed{2} \) NaHCO₃ (s) → \( \boxed{1} \) Na₂CO₃ (s) + \( \boxed{1} \) CO₂ (g) + \( \boxed{1} \) H₂O (g)

3. \( \boxed{2} \) NaHCO₃ (s) → \( \boxed{1} \) Na₂O (s) + \( \boxed{2} \) CO₂ (g) + \( \boxed{1} \) H₂O (g)

4. \( \boxed{2} \) NaHCO₃ (s) → \( \boxed{2} \) Na (s) + \( \boxed{1} \) H₂ (g) + \( \boxed{2} \) C (s) + \( \boxed{3} \) O₂ (g)

---

**Question 2**

Using a mass of 5.48 g of baking soda you started with initially, calculate the mass (g) of solid product that should be produced for Equation 3 above. Answer with two decimal places and do not include units. Please use: 

- Na = 22.99
- H = 1.008
- C = 12.011
- O = 15.999 g/mole.

Answer: **2.02**

**Question 3**

Using a mass of 1.01 g of baking soda you started with initially, calculate the mass (g) of solid product that should be produced for Equation 4 above. Answer with two decimal places and do not include units. Please use: 

- Na = 22.99
- H = 1.008
- C = 12.011
- O = 15.999 g/mole.

Answer: **0.28**

---

**Explanation of Balancing Chemical Equations:**

In the exercises above, you need to balance the provided chemical equations. Ensure
Transcribed Image Text:**Chemical Equation Balancing and Calculations** **Balance each of the following chemical equations (please add 1 where needed - even though we usually do not):** 1. \( \boxed{1} \) NaHCO₃ (s) → \( \boxed{1} \) NaOH (s) + \( \boxed{1} \) CO₂ (g) 2. \( \boxed{2} \) NaHCO₃ (s) → \( \boxed{1} \) Na₂CO₃ (s) + \( \boxed{1} \) CO₂ (g) + \( \boxed{1} \) H₂O (g) 3. \( \boxed{2} \) NaHCO₃ (s) → \( \boxed{1} \) Na₂O (s) + \( \boxed{2} \) CO₂ (g) + \( \boxed{1} \) H₂O (g) 4. \( \boxed{2} \) NaHCO₃ (s) → \( \boxed{2} \) Na (s) + \( \boxed{1} \) H₂ (g) + \( \boxed{2} \) C (s) + \( \boxed{3} \) O₂ (g) --- **Question 2** Using a mass of 5.48 g of baking soda you started with initially, calculate the mass (g) of solid product that should be produced for Equation 3 above. Answer with two decimal places and do not include units. Please use: - Na = 22.99 - H = 1.008 - C = 12.011 - O = 15.999 g/mole. Answer: **2.02** **Question 3** Using a mass of 1.01 g of baking soda you started with initially, calculate the mass (g) of solid product that should be produced for Equation 4 above. Answer with two decimal places and do not include units. Please use: - Na = 22.99 - H = 1.008 - C = 12.011 - O = 15.999 g/mole. Answer: **0.28** --- **Explanation of Balancing Chemical Equations:** In the exercises above, you need to balance the provided chemical equations. Ensure
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