### Bond Dissociation Energies and Chemical ReactionsThe compound oxygen difluoride (OF₂) is quite reactive, and when treated with water, it yields oxygen (O₂) and hydrogen fluoride (HF). The reaction can be represented as follows:\[ \text{OF}_2(g) + \text{H}_2\text{O}(g) \rightarrow \text{O}_2(g) + 2\text{HF}(g) \]The change in enthalpy (ΔE°ₓₙ) for this reaction is -318 kJ.To calculate the bond dissociation energy (BDE) of the oxygen-fluorine (O–F) bond in OF₂, we can use the average bond energies from the provided table.### Table: Average Bond Energies#### Single Bonds| Bond | Energy (kJ/mol) | Bond | Energy (kJ/mol) ||-------|-----------------|-------|-----------------|| H–H | 432 | N–H | 391 || H–F | 565 | I–I | 149 || H–Cl | 427 | I–Cl | 208 || H–Br | 363 | I–Br | 175 || H–I | 295 | S–H | 347 || C–H | 413 | S–F | 327 || C–C | 347 | S–Cl | 253 || C–N | 305 | S–Br | 218 || C–O | 358 | S–S | 266 || C–F | 485 | Si–Si | 340 || C–Br | 276 | Si–C | 360 || C–I | 240 | Si–O | 452 || C–S | 259 | | || F–F | 154 | | || F–Cl | 253 | | || F–Br | 237 | | || Cl–Cl | 239 | | |

The balanced reaction involved is :OF2 (g) + H2O (g) -----> O2 (g) + 2HF (g)∆E° for reaction =…

Answered: OF₂(g) + H₂O(g) → O₂(g) + 2HF(g) ΔΕ,…

OF₂(g) + H₂O(g) → O₂(g) + 2HF(g) ΔΕ, rxn = -318 kJ Using bond energies, calculate the bond dissociation energy of the O-F bond in OF2.

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

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### Bond Dissociation Energies and Chemical Reactions

The compound oxygen difluoride (OF₂) is quite reactive, and when treated with water, it yields oxygen (O₂) and hydrogen fluoride (HF). The reaction can be represented as follows:

\[ \text{OF}_2(g) + \text{H}_2\text{O}(g) \rightarrow \text{O}_2(g) + 2\text{HF}(g) \]

The change in enthalpy (ΔE°ₓₙ) for this reaction is -318 kJ.

To calculate the bond dissociation energy (BDE) of the oxygen-fluorine (O–F) bond in OF₂, we can use the average bond energies from the provided table.

### Table: Average Bond Energies

#### Single Bonds

| Bond | Energy (kJ/mol) | Bond | Energy (kJ/mol) |
|-------|-----------------|-------|-----------------|
| H–H | 432 | N–H | 391 |
| H–F | 565 | I–I | 149 |
| H–Cl | 427 | I–Cl | 208 |
| H–Br | 363 | I–Br | 175 |
| H–I | 295 | S–H | 347 |
| C–H | 413 | S–F | 327 |
| C–C | 347 | S–Cl | 253 |
| C–N | 305 | S–Br | 218 |
| C–O | 358 | S–S | 266 |
| C–F | 485 | Si–Si | 340 |
| C–Br | 276 | Si–C | 360 |
| C–I | 240 | Si–O | 452 |
| C–S | 259 | | |
| F–F | 154 | | |
| F–Cl | 253 | | |
| F–Br | 237 | | |
| Cl–Cl | 239 | | |

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