To find the y-coordinate for the ordered pairs using the equation \( y = 14x \), we can substitute each value of \( x \) into the equation and solve for \( y \).
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For \( x = 0 \): \[ y = 14(0) = 0 \] So the ordered pair is \( (0, 0) \).
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For \( x = 4 \): \[ y = 14(4) = 56 \] So the ordered pair is \( (4, 56) \).
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For \( x = 8 \): \[ y = 14(8) = 112 \] So the ordered pair is \( (8, 112) \).
The completed ordered pairs in the table are:
- \( (0, 0) \)
- \( (4, 56) \)
- \( (8, 112) \)
Thus, the final table looks like this:
\[ \begin{array}{|c|c|c|} \hline x & y & (x, y) \ \hline 0 & 0 & (0, 0) \ 4 & 56 & (4, 56) \ 8 & 112 & (8, 112) \ \hline \end{array} \]