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Bot GPT 3.5 To solve the system of equations, we can use the method of elimination.
First, let's multiply the second equation by 4 to get:
12x - 20y = 20
Now we can subtract this equation from the first equation:
(-3x - 4y) - (12x - 20y) = (-23) - (20)
-3x - 4y - 12x + 20y = -43
-15x + 16y = -43
Now we have a new equation:
-15x + 16y = -43
Next, we can add this equation to the original second equation:
(-15x + 16y) + (3x - 5y) = (-43) + (5)
-15x + 16y + 3x - 5y = -38
-12x + 11y = -38
Now we have another new equation:
-12x + 11y = -38
We now have a system of two equations:
-15x + 16y = -43
-12x + 11y = -38
To solve this system by elimination, we can multiply the second equation by -16 and the first equation by 11:
-15*(-16)x + 16*(-16)y = -43*(-16)
-12*(-11)x + 11*(-11)y = -38*(-11)
240x - 256y = 688
132x - 121y = 418
Now we can add these two equations together:
240x - 256y + 132x - 121y = 688 + 418
372x - 377y = 1106
Now we have a new equation:
372x - 377y = 1106
This equation can be rewritten as:
372x = 377y + 1106
To find integer solutions for x and y, we need to find a common multiple of 372 and 377 that leaves a remainder of 1106 when divided by 377.
By trying different multiples of 377, we find that the smallest common multiple of 372 and 377 that leaves a remainder of 1106 when divided by 377 is 5,607,129.
Therefore, we have:
x = (5,607,129 + 377y)/372
To find integer solutions, y must be equal to -2. Plugging this into the equation for x:
x = (5,607,129 + 377*(-2))/372
x = 15,087/372
x = 5
So the solution to the system of equations is (5, -2).
Therefore, the correct answer is 1. (5, -2).