Atrast x (complex solution)
x=\frac{9}{10}=0,9
x=\frac{\sqrt{3}i}{5}+\frac{3}{10}\approx 0,3+0,346410162i
x=-\frac{\sqrt{3}i}{5}+\frac{3}{10}\approx 0,3-0,346410162i
Atrast x
x=\frac{9}{10}=0,9
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125\left(8x^{3}-12x^{2}+6x-1\right)+2=66
Lietojiet Ņūtona binomu \left(a-b\right)^{3}=a^{3}-3a^{2}b+3ab^{2}-b^{3}, lai izvērstu \left(2x-1\right)^{3}.
1000x^{3}-1500x^{2}+750x-125+2=66
Izmantojiet distributīvo īpašību, lai reizinātu 125 ar 8x^{3}-12x^{2}+6x-1.
1000x^{3}-1500x^{2}+750x-123=66
Saskaitiet -125 un 2, lai iegūtu -123.
1000x^{3}-1500x^{2}+750x-123-66=0
Atņemiet 66 no abām pusēm.
1000x^{3}-1500x^{2}+750x-189=0
Atņemiet 66 no -123, lai iegūtu -189.
±\frac{189}{1000},±\frac{189}{500},±\frac{189}{250},±\frac{189}{200},±\frac{189}{125},±\frac{189}{100},±\frac{189}{50},±\frac{189}{40},±\frac{189}{25},±\frac{189}{20},±\frac{189}{10},±\frac{189}{8},±\frac{189}{5},±\frac{189}{4},±\frac{189}{2},±189,±\frac{63}{1000},±\frac{63}{500},±\frac{63}{250},±\frac{63}{200},±\frac{63}{125},±\frac{63}{100},±\frac{63}{50},±\frac{63}{40},±\frac{63}{25},±\frac{63}{20},±\frac{63}{10},±\frac{63}{8},±\frac{63}{5},±\frac{63}{4},±\frac{63}{2},±63,±\frac{27}{1000},±\frac{27}{500},±\frac{27}{250},±\frac{27}{200},±\frac{27}{125},±\frac{27}{100},±\frac{27}{50},±\frac{27}{40},±\frac{27}{25},±\frac{27}{20},±\frac{27}{10},±\frac{27}{8},±\frac{27}{5},±\frac{27}{4},±\frac{27}{2},±27,±\frac{21}{1000},±\frac{21}{500},±\frac{21}{250},±\frac{21}{200},±\frac{21}{125},±\frac{21}{100},±\frac{21}{50},±\frac{21}{40},±\frac{21}{25},±\frac{21}{20},±\frac{21}{10},±\frac{21}{8},±\frac{21}{5},±\frac{21}{4},±\frac{21}{2},±21,±\frac{9}{1000},±\frac{9}{500},±\frac{9}{250},±\frac{9}{200},±\frac{9}{125},±\frac{9}{100},±\frac{9}{50},±\frac{9}{40},±\frac{9}{25},±\frac{9}{20},±\frac{9}{10},±\frac{9}{8},±\frac{9}{5},±\frac{9}{4},±\frac{9}{2},±9,±\frac{7}{1000},±\frac{7}{500},±\frac{7}{250},±\frac{7}{200},±\frac{7}{125},±\frac{7}{100},±\frac{7}{50},±\frac{7}{40},±\frac{7}{25},±\frac{7}{20},±\frac{7}{10},±\frac{7}{8},±\frac{7}{5},±\frac{7}{4},±\frac{7}{2},±7,±\frac{3}{1000},±\frac{3}{500},±\frac{3}{250},±\frac{3}{200},±\frac{3}{125},±\frac{3}{100},±\frac{3}{50},±\frac{3}{40},±\frac{3}{25},±\frac{3}{20},±\frac{3}{10},±\frac{3}{8},±\frac{3}{5},±\frac{3}{4},±\frac{3}{2},±3,±\frac{1}{1000},±\frac{1}{500},±\frac{1}{250},±\frac{1}{200},±\frac{1}{125},±\frac{1}{100},±\frac{1}{50},±\frac{1}{40},±\frac{1}{25},±\frac{1}{20},±\frac{1}{10},±\frac{1}{8},±\frac{1}{5},±\frac{1}{4},±\frac{1}{2},±1
Saskaņā ar racionālo sakņu teorēmu visas polinoma racionālās saknes ir \frac{p}{q}, kur ar p tiek dalīts brīvais loceklis -189 un ar q tiek dalīts vecākais koeficients 1000. Uzskaitiet visus kandidātus \frac{p}{q}.
x=\frac{9}{10}
Atrodiet vienu šādu sakni, izmēģinot visas veselā skaitļa vērtības, sākot no mazākā pēc absolūtās vērtības. Ja nav atrasta neviena vesela skaitļa sakne, izmēģiniet daļskaitļus.
100x^{2}-60x+21=0
Pēc sadaliet teorēma, x-k ir katra saknes k polinoma koeficients. Daliet 1000x^{3}-1500x^{2}+750x-189 ar 10\left(x-\frac{9}{10}\right)=10x-9, lai iegūtu 100x^{2}-60x+21. Atrisiniet vienādojumu, kur rezultāts ir vienāds ar 0.
x=\frac{-\left(-60\right)±\sqrt{\left(-60\right)^{2}-4\times 100\times 21}}{2\times 100}
Visus formas ax^{2}+bx+c=0 vienādojumus var atrisināt, izmantojot kvadrātsaknes formulu: \frac{-b±\sqrt{b^{2}-4ac}}{2a}. Kvadrātsaknes formulā aizstājiet a ar 100, b ar -60 un c ar 21.
x=\frac{60±\sqrt{-4800}}{200}
Veiciet aprēķinus.
x=-\frac{\sqrt{3}i}{5}+\frac{3}{10} x=\frac{\sqrt{3}i}{5}+\frac{3}{10}
Atrisiniet vienādojumu 100x^{2}-60x+21=0, ja ± ir pluss un ± ir mīnuss.
x=\frac{9}{10} x=-\frac{\sqrt{3}i}{5}+\frac{3}{10} x=\frac{\sqrt{3}i}{5}+\frac{3}{10}
Visu atrasto risinājumu saraksts.
125\left(8x^{3}-12x^{2}+6x-1\right)+2=66
Lietojiet Ņūtona binomu \left(a-b\right)^{3}=a^{3}-3a^{2}b+3ab^{2}-b^{3}, lai izvērstu \left(2x-1\right)^{3}.
1000x^{3}-1500x^{2}+750x-125+2=66
Izmantojiet distributīvo īpašību, lai reizinātu 125 ar 8x^{3}-12x^{2}+6x-1.
1000x^{3}-1500x^{2}+750x-123=66
Saskaitiet -125 un 2, lai iegūtu -123.
1000x^{3}-1500x^{2}+750x-123-66=0
Atņemiet 66 no abām pusēm.
1000x^{3}-1500x^{2}+750x-189=0
Atņemiet 66 no -123, lai iegūtu -189.
±\frac{189}{1000},±\frac{189}{500},±\frac{189}{250},±\frac{189}{200},±\frac{189}{125},±\frac{189}{100},±\frac{189}{50},±\frac{189}{40},±\frac{189}{25},±\frac{189}{20},±\frac{189}{10},±\frac{189}{8},±\frac{189}{5},±\frac{189}{4},±\frac{189}{2},±189,±\frac{63}{1000},±\frac{63}{500},±\frac{63}{250},±\frac{63}{200},±\frac{63}{125},±\frac{63}{100},±\frac{63}{50},±\frac{63}{40},±\frac{63}{25},±\frac{63}{20},±\frac{63}{10},±\frac{63}{8},±\frac{63}{5},±\frac{63}{4},±\frac{63}{2},±63,±\frac{27}{1000},±\frac{27}{500},±\frac{27}{250},±\frac{27}{200},±\frac{27}{125},±\frac{27}{100},±\frac{27}{50},±\frac{27}{40},±\frac{27}{25},±\frac{27}{20},±\frac{27}{10},±\frac{27}{8},±\frac{27}{5},±\frac{27}{4},±\frac{27}{2},±27,±\frac{21}{1000},±\frac{21}{500},±\frac{21}{250},±\frac{21}{200},±\frac{21}{125},±\frac{21}{100},±\frac{21}{50},±\frac{21}{40},±\frac{21}{25},±\frac{21}{20},±\frac{21}{10},±\frac{21}{8},±\frac{21}{5},±\frac{21}{4},±\frac{21}{2},±21,±\frac{9}{1000},±\frac{9}{500},±\frac{9}{250},±\frac{9}{200},±\frac{9}{125},±\frac{9}{100},±\frac{9}{50},±\frac{9}{40},±\frac{9}{25},±\frac{9}{20},±\frac{9}{10},±\frac{9}{8},±\frac{9}{5},±\frac{9}{4},±\frac{9}{2},±9,±\frac{7}{1000},±\frac{7}{500},±\frac{7}{250},±\frac{7}{200},±\frac{7}{125},±\frac{7}{100},±\frac{7}{50},±\frac{7}{40},±\frac{7}{25},±\frac{7}{20},±\frac{7}{10},±\frac{7}{8},±\frac{7}{5},±\frac{7}{4},±\frac{7}{2},±7,±\frac{3}{1000},±\frac{3}{500},±\frac{3}{250},±\frac{3}{200},±\frac{3}{125},±\frac{3}{100},±\frac{3}{50},±\frac{3}{40},±\frac{3}{25},±\frac{3}{20},±\frac{3}{10},±\frac{3}{8},±\frac{3}{5},±\frac{3}{4},±\frac{3}{2},±3,±\frac{1}{1000},±\frac{1}{500},±\frac{1}{250},±\frac{1}{200},±\frac{1}{125},±\frac{1}{100},±\frac{1}{50},±\frac{1}{40},±\frac{1}{25},±\frac{1}{20},±\frac{1}{10},±\frac{1}{8},±\frac{1}{5},±\frac{1}{4},±\frac{1}{2},±1
Saskaņā ar racionālo sakņu teorēmu visas polinoma racionālās saknes ir \frac{p}{q}, kur ar p tiek dalīts brīvais loceklis -189 un ar q tiek dalīts vecākais koeficients 1000. Uzskaitiet visus kandidātus \frac{p}{q}.
x=\frac{9}{10}
Atrodiet vienu šādu sakni, izmēģinot visas veselā skaitļa vērtības, sākot no mazākā pēc absolūtās vērtības. Ja nav atrasta neviena vesela skaitļa sakne, izmēģiniet daļskaitļus.
100x^{2}-60x+21=0
Pēc sadaliet teorēma, x-k ir katra saknes k polinoma koeficients. Daliet 1000x^{3}-1500x^{2}+750x-189 ar 10\left(x-\frac{9}{10}\right)=10x-9, lai iegūtu 100x^{2}-60x+21. Atrisiniet vienādojumu, kur rezultāts ir vienāds ar 0.
x=\frac{-\left(-60\right)±\sqrt{\left(-60\right)^{2}-4\times 100\times 21}}{2\times 100}
Visus formas ax^{2}+bx+c=0 vienādojumus var atrisināt, izmantojot kvadrātsaknes formulu: \frac{-b±\sqrt{b^{2}-4ac}}{2a}. Kvadrātsaknes formulā aizstājiet a ar 100, b ar -60 un c ar 21.
x=\frac{60±\sqrt{-4800}}{200}
Veiciet aprēķinus.
x\in \emptyset
Tā kā reālajā laukā negatīva skaitļa kvadrātsakne nav definēta, risinājuma nav.
x=\frac{9}{10}
Visu atrasto risinājumu saraksts.
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