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x+y=32,3x+2y=20
To solve a pair of equations using substitution, first solve one of the equations for one of the variables. Then substitute the result for that variable in the other equation.
x+y=32
Choose one of the equations and solve it for x by isolating x on the left hand side of the equal sign.
x=-y+32
Subtract y from both sides of the equation.
3\left(-y+32\right)+2y=20
Substitute -y+32 for x in the other equation, 3x+2y=20.
-3y+96+2y=20
Multiply 3 times -y+32.
-y+96=20
Add -3y to 2y.
-y=-76
Subtract 96 from both sides of the equation.
y=76
Divide both sides by -1.
x=-76+32
Substitute 76 for y in x=-y+32. Because the resulting equation contains only one variable, you can solve for x directly.
x=-44
Add 32 to -76.
x=-44,y=76
The system is now solved.
x+y=32,3x+2y=20
Put the equations in standard form and then use matrices to solve the system of equations.
\left(\begin{matrix}1&1\\3&2\end{matrix}\right)\left(\begin{matrix}x\\y\end{matrix}\right)=\left(\begin{matrix}32\\20\end{matrix}\right)
Write the equations in matrix form.
inverse(\left(\begin{matrix}1&1\\3&2\end{matrix}\right))\left(\begin{matrix}1&1\\3&2\end{matrix}\right)\left(\begin{matrix}x\\y\end{matrix}\right)=inverse(\left(\begin{matrix}1&1\\3&2\end{matrix}\right))\left(\begin{matrix}32\\20\end{matrix}\right)
Left multiply the equation by the inverse matrix of \left(\begin{matrix}1&1\\3&2\end{matrix}\right).
\left(\begin{matrix}1&0\\0&1\end{matrix}\right)\left(\begin{matrix}x\\y\end{matrix}\right)=inverse(\left(\begin{matrix}1&1\\3&2\end{matrix}\right))\left(\begin{matrix}32\\20\end{matrix}\right)
The product of a matrix and its inverse is the identity matrix.
\left(\begin{matrix}x\\y\end{matrix}\right)=inverse(\left(\begin{matrix}1&1\\3&2\end{matrix}\right))\left(\begin{matrix}32\\20\end{matrix}\right)
Multiply the matrices on the left hand side of the equal sign.
\left(\begin{matrix}x\\y\end{matrix}\right)=\left(\begin{matrix}\frac{2}{2-3}&-\frac{1}{2-3}\\-\frac{3}{2-3}&\frac{1}{2-3}\end{matrix}\right)\left(\begin{matrix}32\\20\end{matrix}\right)
For the 2\times 2 matrix \left(\begin{matrix}a&b\\c&d\end{matrix}\right), the inverse matrix is \left(\begin{matrix}\frac{d}{ad-bc}&\frac{-b}{ad-bc}\\\frac{-c}{ad-bc}&\frac{a}{ad-bc}\end{matrix}\right), so the matrix equation can be rewritten as a matrix multiplication problem.
\left(\begin{matrix}x\\y\end{matrix}\right)=\left(\begin{matrix}-2&1\\3&-1\end{matrix}\right)\left(\begin{matrix}32\\20\end{matrix}\right)
Do the arithmetic.
\left(\begin{matrix}x\\y\end{matrix}\right)=\left(\begin{matrix}-2\times 32+20\\3\times 32-20\end{matrix}\right)
Multiply the matrices.
\left(\begin{matrix}x\\y\end{matrix}\right)=\left(\begin{matrix}-44\\76\end{matrix}\right)
Do the arithmetic.
x=-44,y=76
Extract the matrix elements x and y.
x+y=32,3x+2y=20
In order to solve by elimination, coefficients of one of the variables must be the same in both equations so that the variable will cancel out when one equation is subtracted from the other.
3x+3y=3\times 32,3x+2y=20
To make x and 3x equal, multiply all terms on each side of the first equation by 3 and all terms on each side of the second by 1.
3x+3y=96,3x+2y=20
Simplify.
3x-3x+3y-2y=96-20
Subtract 3x+2y=20 from 3x+3y=96 by subtracting like terms on each side of the equal sign.
3y-2y=96-20
Add 3x to -3x. Terms 3x and -3x cancel out, leaving an equation with only one variable that can be solved.
y=96-20
Add 3y to -2y.
y=76
Add 96 to -20.
3x+2\times 76=20
Substitute 76 for y in 3x+2y=20. Because the resulting equation contains only one variable, you can solve for x directly.
3x+152=20
Multiply 2 times 76.
3x=-132
Subtract 152 from both sides of the equation.
x=-44
Divide both sides by 3.
x=-44,y=76
The system is now solved.