Matemática discreta Ejemplos

Ejemplos paso a paso
Matemática discreta
Sistemas de ecuaciones lineales
Resolver mediante una matriz por eliminación
2x-y+3z=8 , x-6y-z=0 , -6x+3y-9z=24
Paso 1
Write the system as a matrix.
[2-1381-6-10-63-924]
Paso 2
Obtén la forma escalonada reducida por filas.
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Paso 2.1
Multiply each element of R1 by 12 to make the entry at 1,1 a 1.
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Paso 2.1.1
Multiply each element of R1 by 12 to make the entry at 1,1 a 1.
[22-1232821-6-10-63-924]
Paso 2.1.2
Simplifica R1.
[1-123241-6-10-63-924]
[1-123241-6-10-63-924]
Paso 2.2
Perform the row operation R2=R2-R1 to make the entry at 2,1 a 0.
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Paso 2.2.1
Perform the row operation R2=R2-R1 to make the entry at 2,1 a 0.
[1-123241-1-6+12-1-320-4-63-924]
Paso 2.2.2
Simplifica R2.
[1-123240-112-52-4-63-924]
[1-123240-112-52-4-63-924]
Paso 2.3
Perform the row operation R3=R3+6R1 to make the entry at 3,1 a 0.
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Paso 2.3.1
Perform the row operation R3=R3+6R1 to make the entry at 3,1 a 0.
[1-123240-112-52-4-6+613+6(-12)-9+6(32)24+64]
Paso 2.3.2
Simplifica R3.
[1-123240-112-52-400048]
[1-123240-112-52-400048]
Paso 2.4
Multiply each element of R2 by -211 to make the entry at 2,2 a 1.
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Paso 2.4.1
Multiply each element of R2 by -211 to make the entry at 2,2 a 1.
[1-12324-2110-211(-112)-211(-52)-211-400048]
Paso 2.4.2
Simplifica R2.
[1-123240151181100048]
[1-123240151181100048]
Paso 2.5
Multiply each element of R3 by 148 to make the entry at 3,4 a 1.
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Paso 2.5.1
Multiply each element of R3 by 148 to make the entry at 3,4 a 1.
[1-12324015118110480480484848]
Paso 2.5.2
Simplifica R3.
[1-12324015118110001]
[1-12324015118110001]
Paso 2.6
Perform the row operation R2=R2-811R3 to make the entry at 2,4 a 0.
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Paso 2.6.1
Perform the row operation R2=R2-811R3 to make the entry at 2,4 a 0.
[1-123240-81101-8110511-8110811-81110001]
Paso 2.6.2
Simplifica R2.
[1-123240151100001]
[1-123240151100001]
Paso 2.7
Perform the row operation R1=R1-4R3 to make the entry at 1,4 a 0.
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Paso 2.7.1
Perform the row operation R1=R1-4R3 to make the entry at 1,4 a 0.
[1-40-12-4032-404-410151100001]
Paso 2.7.2
Simplifica R1.
[1-123200151100001]
[1-123200151100001]
Paso 2.8
Perform the row operation R1=R1+12R2 to make the entry at 1,2 a 0.
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Paso 2.8.1
Perform the row operation R1=R1+12R2 to make the entry at 1,2 a 0.
[1+120-12+12132+125110+1200151100001]
Paso 2.8.2
Simplifica R1.
[10191100151100001]
[10191100151100001]
[10191100151100001]
Paso 3
Use the result matrix to declare the final solution to the system of equations.
x+1911z=0
y+511z=0
0=1
Paso 4
The system is inconsistent so there is no solution.
No hay solución
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 [x2  12  π  xdx ] 
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