Balance the reaction between MnO₂ and F₂ to form MnO4 and F in basic solution. When you have balanced the equation using the smallest integers possible, enter the coefficients of the species shown. MnO₂ + F F2 MnO4 + Water appears in the balanced equation as a (reactant, product, neither) with a coefficient of (Enter 0 for neither.) How many electrons are transferred in this reaction?

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**Balancing Redox Reactions in Basic Solutions** **Problem Statement:** Balance the reaction between MnO2 and F2 to form MnO4^- and F^- in a basic solution. When you have balanced the equation using the smallest integers possible, enter the coefficients of the species shown. **Equation Format:** - \(\underline{\ \ \ }\) MnO2 + \(\underline{\ \ \ }\) F2 → \(\underline{\ \ \ }\) MnO4^- + \(\underline{\ \ \ }\) F^- **Additional Questions:** 1. Water appears in the balanced equation as a \( \underline{\ \ \ }\) (reactant, product, neither) with a coefficient of \(\underline{\ \ \ }\). (Enter 0 for neither.) 2. How many electrons are transferred in this reaction? **Instructions:** - Enter your answers into the provided blank spaces. - After completing the form, click the "Submit Answer" button. **Note:** When balancing redox reactions in basic solutions, remember to: 1. Divide the reaction into half-reactions. 2. Balance all elements except hydrogen and oxygen. 3. Balance oxygen atoms by adding H2O. 4. Balance hydrogen atoms by adding H+ ions. 5. Add OH^- ions to both sides to neutralize H+ ions and form water. 6. Balance charges by adding electrons. 7. Combine half-reactions ensuring electrons cancel out. 8. Verify the balance of elements and charges. This exercise provides practice on balancing equations and understanding redox reactions.