John used linear combination to solve the system of equations shown. He did so by multiplying the first equation by -3 and the second equation by another number to eliminate the x-terms. What number did Jonas multiply the second equation by?

4x-6y=2

3x+5y=11

We are given two linear equations and we know that John multiplied the first equation by -3 and the second equation by another number to eliminate the x-terms.

We are to find that another number.

4x-6y=2 --- (1)

3x+5y=11 --- (2)

Multiplying the first equation by -3 we get:

-12x + 18y = -6 --- (3)

Since we have to eliminate the x terms so coefficients of x must be the same with opposite signs. So we need 12x in the second equation to eliminate it.

For this, we need to multiply the second equation by 4 to get:

12x + 20y = 44

John used linear combination to solve the system of equations shown. He did so by multiplying the first equation by -3 and the second equation by another number to eliminate the x-terms. What number did Jonas multiply the second equation by? 4x-6y=23x+5y=11

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John used linear combination to solve the system of equations shown. He did so by multiplying the first equation by -3 and the second equation by another number to eliminate the x-terms. What number did Jonas multiply the second equation by?

4x-6y=2

3x+5y=11