An equation has an infinite number of solutions if both sides of the equation are identical, meaning that any value of x will satisfy the equation. Let's analyze Candice's equations one by one:
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Negative 5 x + 1 = negative 5 x + 1
Both sides are identical, so this equation holds true for all values of x. This means it has an infinite number of solutions. -
Negative 2 x + 1 = negative 2 x + 2
If we simplify this, we see that subtracting negative 2x from both sides gives us 1 = 2, which is false. This equation has no solutions. -
3 x + 5 = 3 x - 5
Simplifying this by subtracting 3x from both sides gives us 5 = -5, which is also false. This means there are no solutions. -
4 x - 2 = x + 1
Rearranging gives us 4x - x = 1 + 2, or 3x = 3, leading to x = 1, which is a single solution (not infinite).
Therefore, the only equation from Candice's list that has an infinite number of solutions is:
Negative 5 x + 1 = negative 5 x + 1
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