The answer to each of the following questions is a non-negative integer.
Find the number of `H_(2)` molecules formed from the hydrolysis of one molecule of diborane.

To find the number of \( H_2 \) molecules formed from the hydrolysis of one molecule of diborane (\( B_2H_6 \)), we can follow these steps: ### Step 1: Write the Hydrolysis Reaction The hydrolysis of diborane can be represented by the following chemical equation: \[ B_2H_6 + H_2O \rightarrow H_3BO_3 + H_2 \] ### Step 2: Balance the Reaction To balance the reaction, we need to ensure that the number of atoms of each element is the same on both sides. The balanced equation for the hydrolysis of diborane is: \[ B_2H_6 + 6H_2O \rightarrow 2H_3BO_3 + 6H_2 \] ### Step 3: Analyze the Products From the balanced equation, we can see that for every 1 molecule of \( B_2H_6 \) that reacts, it produces 6 molecules of \( H_2 \). ### Step 4: Conclusion Thus, from the hydrolysis of one molecule of diborane, the number of \( H_2 \) molecules formed is: \[ \text{Number of } H_2 \text{ molecules} = 6 \] ### Final Answer The number of \( H_2 \) molecules formed from the hydrolysis of one molecule of diborane is **6**. ---