The system has no solution.
The system has a unique solution: $(x, y)=(\square, \square)$
\[
\begin{array}{r}
-x+4 y=-8 \\
x-4 y=-8
\end{array}
\]
The system has infinitely many solutions. They must satisfy the following equation:
\[
y=
\]
Answer
Final Answer: The solutions to the system must satisfy the equation \[y = \boxed{\frac{x}{4} - 2}\]
Step 1 :The given system of equations is: \(-x + 4y = -8\) and \(x - 4y = -8\)
Step 2 :We can see that the second equation is just the first equation multiplied by -1. This means that the two equations are dependent and represent the same line.
Step 3 :Therefore, the system has infinitely many solutions.
Step 4 :To find the equation that the solutions must satisfy, we can solve one of the equations for y. Let's solve the first equation for y.
Step 5 :The solution to the equation \(-x + 4y = -8\) for y is \(y = \frac{x}{4} - 2\). This is the equation that all solutions to the system must satisfy.
Step 6 :Final Answer: The solutions to the system must satisfy the equation \[y = \boxed{\frac{x}{4} - 2}\]
