How many grams of C,H must decompose according to the following chemical equation to transfer 430 kJ of heat? CsHe(l) → 3 C2H2(g) AH = 630 kJ MOUNT ADD FACTOR ANSWER RESET *( ) 53.3 26.04 1000 160 630 3 1 78.12 6.022 x 10" 2.15 × 107 17.8 0.001 430 g CgHs kJ mol C2H2 J g C2H2 mol CgHs

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**Title: Calculating the Decomposition of Benzene (C₆H₆) for Heat Transfer** **Problem Statement:** How many grams of C₆H₆ must decompose according to the following chemical equation to transfer 430 kJ of heat? \[ \text{C}_6\text{H}_6(\text{l}) \rightarrow 3 \text{ C}_2\text{H}_2(\text{g}) \, \Delta H = 630 \, \text{kJ} \] **Calculation Steps:** 1. **Starting Amount**: Input the initial amount of reactant or product you have. 2. **Conversion Process**: - Use the multiplication section to input necessary conversion factors and equations. - Enter the relevant values and units required for calculation. 3. **Graph/Diagram Explanation:** - **Starting Amount Box**: Input area for the initial chemical amount needed. - **Multiplication Brackets**: Section to apply various conversion factors. - **Add Factor Section**: Allows multiplication by additional factors. 4. **Conversion Values Available**: - 53.3, 26.04, 1000, 160, 630, 3, 1, 78.12 - Standard units and conversion constants are present: - \( 6.022 \times 10^{23} \) - \( 2.15 \times 10^7 \) - 17.8 - 0.001 - 430 5. **Units Available**: - \( \text{g C}_6\text{H}_6 \) - \( \text{kJ} \) - \( \text{mol C}_2\text{H}_2 \) - \( \text{J} \) - \( \text{g C}_2\text{H}_2 \) - \( \text{mol C}_6\text{H}_6 \) 6. **Answer Box**: Where the final computed value is displayed. 7. **Reset Button**: To clear all inputs and start the calculation anew. This interactive calculation tool aids in understanding the stoichiometric conversion necessary to determine the grams of benzene required to achieve a specific heat transfer.