To solve the equation \( \frac{3}{\text{blank}} \times \text{blank} = 2 \), we can rewrite it as:
\[ \frac{3}{x} \times y = 2 \]
To simplify, we can multiply both sides by \( x \):
\[ 3 \times y = 2x \]
Now we can express \( y \) in terms of \( x \):
\[ y = \frac{2x}{3} \]
So the equation \( \frac{3}{x} \times y = 2 \) holds true for any values of \( x \) and \( y \) where \( y = \frac{2x}{3} \). You can choose any non-zero value for \( x \), and then calculate \( y \) based on that value.
For example:
- If \( x = 3 \), then \( y = \frac{2 \times 3}{3} = 2\).
- If \( x = 6 \), then \( y = \frac{2 \times 6}{3} = 4\).
So to answer your question, any pairs of \( (x, y) \) that satisfy \( y = \frac{2x}{3} \) will work, such as \( (3, 2) \) or \( (6, 4) \).