SOLUTION: solve the system of linear equations using cramer's rule x+y+z=1 2x+2y+3z=6 x+4y+9z=3

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Question 862533: solve the system of linear equations using cramer's rule

x+y+z=1
2x+2y+3z=6
x+4y+9z=3
Answer by ewatrrr(24785) About Me  (Show Source):
You can put this solution on YOUR website!
Solved by pluggable solver: Using Cramer's Rule to Solve Systems with 3 variables



system%281%2Ax%2B1%2Ay%2B1%2Az=1%2C2%2Ax%2B2%2Ay%2B3%2Az=6%2C0%2Ax%2B4%2Ay%2B9%2Az=3%29



First let A=%28matrix%283%2C3%2C1%2C1%2C1%2C2%2C2%2C3%2C0%2C4%2C9%29%29. This is the matrix formed by the coefficients of the given system of equations.


Take note that the right hand values of the system are 1, 6, and 3 and they are highlighted here:




These values are important as they will be used to replace the columns of the matrix A.




Now let's calculate the the determinant of the matrix A to get abs%28A%29=-4. To save space, I'm not showing the calculations for the determinant. However, if you need help with calculating the determinant of the matrix A, check out this solver.



Notation note: abs%28A%29 denotes the determinant of the matrix A.



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Now replace the first column of A (that corresponds to the variable 'x') with the values that form the right hand side of the system of equations. We will denote this new matrix A%5Bx%5D (since we're replacing the 'x' column so to speak).






Now compute the determinant of A%5Bx%5D to get abs%28A%5Bx%5D%29=-21. Again, as a space saver, I didn't include the calculations of the determinant. Check out this solver to see how to find this determinant.



To find the first solution, simply divide the determinant of A%5Bx%5D by the determinant of A to get: x=%28abs%28A%5Bx%5D%29%29%2F%28abs%28A%29%29=%28-21%29%2F%28-4%29=21%2F4



So the first solution is x=21%2F4




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We'll follow the same basic idea to find the other two solutions. Let's reset by letting A=%28matrix%283%2C3%2C1%2C1%2C1%2C2%2C2%2C3%2C0%2C4%2C9%29%29 again (this is the coefficient matrix).




Now replace the second column of A (that corresponds to the variable 'y') with the values that form the right hand side of the system of equations. We will denote this new matrix A%5By%5D (since we're replacing the 'y' column in a way).






Now compute the determinant of A%5By%5D to get abs%28A%5By%5D%29=33.



To find the second solution, divide the determinant of A%5By%5D by the determinant of A to get: y=%28abs%28A%5By%5D%29%29%2F%28abs%28A%29%29=%2833%29%2F%28-4%29=-33%2F4



So the second solution is y=-33%2F4




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Let's reset again by letting A=%28matrix%283%2C3%2C1%2C1%2C1%2C2%2C2%2C3%2C0%2C4%2C9%29%29 which is the coefficient matrix.



Replace the third column of A (that corresponds to the variable 'z') with the values that form the right hand side of the system of equations. We will denote this new matrix A%5Bz%5D






Now compute the determinant of A%5Bz%5D to get abs%28A%5Bz%5D%29=-16.



To find the third solution, divide the determinant of A%5Bz%5D by the determinant of A to get: z=%28abs%28A%5Bz%5D%29%29%2F%28abs%28A%29%29=%28-16%29%2F%28-4%29=4



So the third solution is z=4




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Final Answer:




So the three solutions are x=21%2F4, y=-33%2F4, and z=4 giving the ordered triple (21/4, -33/4, 4)




Note: there is a lot of work that is hidden in finding the determinants. Take a look at this 3x3 Determinant Solver to see how to get each determinant.