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Álgebra linear Exemplos
9x+9x-7x=69x+9x−7x=6 , -7x+0-1x=-10−7x+0−1x=−10 , 9x+6x+8x=459x+6x+8x=45
Etapa 1
Etapa 1.1
Some 9x9x e 9x9x.
18x-7x=6,-7x+0-1x=-10,9x+6x+8x=4518x−7x=6,−7x+0−1x=−10,9x+6x+8x=45
Etapa 1.2
Subtraia 7x7x de 18x18x.
11x=6,-7x+0-1x=-10,9x+6x+8x=4511x=6,−7x+0−1x=−10,9x+6x+8x=45
11x=6,-7x+0-1x=-10,9x+6x+8x=4511x=6,−7x+0−1x=−10,9x+6x+8x=45
Etapa 2
Etapa 2.1
Some -7x−7x e 00.
11x=6,-7x-1x=-10,9x+6x+8x=4511x=6,−7x−1x=−10,9x+6x+8x=45
Etapa 2.2
Reescreva -1x−1x como -x−x.
11x=6,-7x-x=-10,9x+6x+8x=4511x=6,−7x−x=−10,9x+6x+8x=45
Etapa 2.3
Subtraia xx de -7x−7x.
11x=6,-8x=-10,9x+6x+8x=4511x=6,−8x=−10,9x+6x+8x=45
11x=6,-8x=-10,9x+6x+8x=4511x=6,−8x=−10,9x+6x+8x=45
Etapa 3
Etapa 3.1
Some 9x9x e 6x6x.
11x=6,-8x=-10,15x+8x=4511x=6,−8x=−10,15x+8x=45
Etapa 3.2
Some 15x15x e 8x8x.
11x=6,-8x=-10,23x=4511x=6,−8x=−10,23x=45
11x=6,-8x=-10,23x=4511x=6,−8x=−10,23x=45
Etapa 4
Escreva o sistema de equações em formato de matriz.
[116-8-102345]⎡⎢⎣116−8−102345⎤⎥⎦
Etapa 5
Etapa 5.1
Multiply each element of R1R1 by 111111 to make the entry at 1,11,1 a 11.
Etapa 5.1.1
Multiply each element of R1R1 by 111111 to make the entry at 1,11,1 a 11.
[1111611-8-102345]⎡⎢
⎢⎣1111611−8−102345⎤⎥
⎥⎦
Etapa 5.1.2
Simplifique R1R1.
[1611-8-102345]⎡⎢
⎢⎣1611−8−102345⎤⎥
⎥⎦
[1611-8-102345]⎡⎢
⎢⎣1611−8−102345⎤⎥
⎥⎦
Etapa 5.2
Perform the row operation R2=R2+8R1R2=R2+8R1 to make the entry at 2,12,1 a 00.
Etapa 5.2.1
Perform the row operation R2=R2+8R1R2=R2+8R1 to make the entry at 2,12,1 a 00.
[1611-8+8⋅1-10+8(611)2345]⎡⎢
⎢
⎢⎣1611−8+8⋅1−10+8(611)2345⎤⎥
⎥
⎥⎦
Etapa 5.2.2
Simplifique R2R2.
[16110-62112345]⎡⎢
⎢⎣16110−62112345⎤⎥
⎥⎦
[16110-62112345]⎡⎢
⎢⎣16110−62112345⎤⎥
⎥⎦
Etapa 5.3
Perform the row operation R3=R3-23R1R3=R3−23R1 to make the entry at 3,13,1 a 00.
Etapa 5.3.1
Perform the row operation R3=R3-23R1R3=R3−23R1 to make the entry at 3,13,1 a 00.
[16110-621123-23⋅145-23(611)]⎡⎢
⎢
⎢
⎢⎣16110−621123−23⋅145−23(611)⎤⎥
⎥
⎥
⎥⎦
Etapa 5.3.2
Simplifique R3R3.
[16110-6211035711]⎡⎢
⎢
⎢⎣16110−6211035711⎤⎥
⎥
⎥⎦
[16110-6211035711]⎡⎢
⎢
⎢⎣16110−6211035711⎤⎥
⎥
⎥⎦
Etapa 5.4
Multiply each element of R2R2 by -1162−1162 to make the entry at 2,22,2 a 11.
Etapa 5.4.1
Multiply each element of R2R2 by -1162−1162 to make the entry at 2,22,2 a 11.
[1611-1162⋅0-1162(-6211)035711]⎡⎢
⎢
⎢
⎢⎣1611−1162⋅0−1162(−6211)035711⎤⎥
⎥
⎥
⎥⎦
Etapa 5.4.2
Simplifique R2R2.
[161101035711]⎡⎢
⎢⎣161101035711⎤⎥
⎥⎦
[161101035711]⎡⎢
⎢⎣161101035711⎤⎥
⎥⎦
Etapa 5.5
Perform the row operation R3=R3-35711R2R3=R3−35711R2 to make the entry at 3,23,2 a 00.
Etapa 5.5.1
Perform the row operation R3=R3-35711R2R3=R3−35711R2 to make the entry at 3,23,2 a 00.
[1611010-35711⋅035711-35711⋅1]⎡⎢
⎢⎣1611010−35711⋅035711−35711⋅1⎤⎥
⎥⎦
Etapa 5.5.2
Simplifique R3R3.
[16110100]⎡⎢
⎢⎣16110100⎤⎥
⎥⎦
[16110100]⎡⎢
⎢⎣16110100⎤⎥
⎥⎦
Etapa 5.6
Perform the row operation R1=R1-611R2R1=R1−611R2 to make the entry at 1,21,2 a 00.
Etapa 5.6.1
Perform the row operation R1=R1-611R2R1=R1−611R2 to make the entry at 1,21,2 a 00.
[1-611⋅0611-611⋅10100]⎡⎢
⎢⎣1−611⋅0611−611⋅10100⎤⎥
⎥⎦
Etapa 5.6.2
Simplifique R1.
[100100]
[100100]
[100100]
Etapa 6
Use a matriz de resultados para declarar as soluções finais ao sistema de equações.
x=0
0=1
Etapa 7
Como 0≠1, não há soluções.
Nenhuma solução