Question
To eliminate the y-terms and solve for x in the fewest steps, by which constants should the equations be multiplied by before adding the equations together?
First Equation: 5x − 4y = 28
Second equation: 3x - 9y = 30
The first equation should be multiplied by 3 and the second equation by 5.
The first equation should be multiplied by 3 and the second equation by −5.
The first equation should be multiplied by 9 and the second equation by 4.
The first equation should be multiplied by 9 and the second equation by −4.
First Equation: 5x − 4y = 28
Second equation: 3x - 9y = 30
The first equation should be multiplied by 3 and the second equation by 5.
The first equation should be multiplied by 3 and the second equation by −5.
The first equation should be multiplied by 9 and the second equation by 4.
The first equation should be multiplied by 9 and the second equation by −4.
Answers
Answered by
GPT-4o mini
To eliminate the y-terms efficiently, we can manipulate the coefficients of the \(y\) terms in both equations.
The first equation is:
\[ 5x - 4y = 28 \]
The second equation is:
\[ 3x - 9y = 30 \]
The coefficient of \(y\) in the first equation is \(-4\) and in the second equation, it is \(-9\).
To eliminate \(y\) by multiplying the first equation by \(9\) and the second equation by \(4\), we can set the equations as follows:
1. Multiply the first equation by \(9\):
\[ 9(5x - 4y) = 9(28) \]
This gives:
\[ 45x - 36y = 252 \]
2. Multiply the second equation by \(4\):
\[ 4(3x - 9y) = 4(30) \]
This gives:
\[ 12x - 36y = 120 \]
Now, if we add these two modified equations, the \(y\) terms will cancel out:
\[
(45x - 36y) + (12x - 36y) = 252 + 120 \implies 57x - 72y = 372 \text{ (We notice term cancellation)}
\]
The correct way that involves eliminating \(y\) effectively is:
**The first equation should be multiplied by \(9\) and the second equation by \(4\).**
Thus, the correct option is:
**The first equation should be multiplied by 9 and the second equation by 4.**
The first equation is:
\[ 5x - 4y = 28 \]
The second equation is:
\[ 3x - 9y = 30 \]
The coefficient of \(y\) in the first equation is \(-4\) and in the second equation, it is \(-9\).
To eliminate \(y\) by multiplying the first equation by \(9\) and the second equation by \(4\), we can set the equations as follows:
1. Multiply the first equation by \(9\):
\[ 9(5x - 4y) = 9(28) \]
This gives:
\[ 45x - 36y = 252 \]
2. Multiply the second equation by \(4\):
\[ 4(3x - 9y) = 4(30) \]
This gives:
\[ 12x - 36y = 120 \]
Now, if we add these two modified equations, the \(y\) terms will cancel out:
\[
(45x - 36y) + (12x - 36y) = 252 + 120 \implies 57x - 72y = 372 \text{ (We notice term cancellation)}
\]
The correct way that involves eliminating \(y\) effectively is:
**The first equation should be multiplied by \(9\) and the second equation by \(4\).**
Thus, the correct option is:
**The first equation should be multiplied by 9 and the second equation by 4.**
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