QUESTION 2 2. Systems of linear equations - Direct Methods Let us consider the following system of linear equations (x+ 2y +2z = 1 2x + 5y +z = 2 (2x + 8y + z = 5 a. Determine whether or not this is a Cramer's system. If this is a Cramer's system, solve it (find z, y, and z) by applying the Cramer's method.

Advanced Engineering Mathematics
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ISBN:9780470458365
Author:Erwin Kreyszig
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Chapter2: Second-order Linear Odes
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QUESTION 2
2. Systems of linear equations - Direct Methods
Let us consider the following system of linear equations
(x+2y+ 2z = 1
2x + 5y + z = 2
(2x + 8y + z = 5
a. Determine whether or not this is a Cramer's system. If this is a Cramer's system, solve it
(find r, y, and z) by applying the Cramer's method.
h Apply the method of Gaussian elimination to determine the equivalent triangular system.
When the triangular system has been obtained solve the system (find x, y, and 2).
Perform the LU factorisation of the incomplete matrix associated with the system of linear
C.
equations. After the factorisation, solve the original system (find r, y, and 2) by making
use of the LU factorisation.
Apply Gaussian elimination to LU factorise the matrix of coefficients. More specifically,
d.
show the equivalence of Gaussian elimination and LU factorization
For all the points above show and comment on, all the steps.
Transcribed Image Text:QUESTION 2 2. Systems of linear equations - Direct Methods Let us consider the following system of linear equations (x+2y+ 2z = 1 2x + 5y + z = 2 (2x + 8y + z = 5 a. Determine whether or not this is a Cramer's system. If this is a Cramer's system, solve it (find r, y, and z) by applying the Cramer's method. h Apply the method of Gaussian elimination to determine the equivalent triangular system. When the triangular system has been obtained solve the system (find x, y, and 2). Perform the LU factorisation of the incomplete matrix associated with the system of linear C. equations. After the factorisation, solve the original system (find r, y, and 2) by making use of the LU factorisation. Apply Gaussian elimination to LU factorise the matrix of coefficients. More specifically, d. show the equivalence of Gaussian elimination and LU factorization For all the points above show and comment on, all the steps.
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