how can I factorise (2x cubed - 5x + 3) ?

[tex]2x^3-5x+3=2x^3-2x-3x+3\\\\=2x(x^2-1)-3(x-1)\\\\=2x\underbrace{(x^2-1^2)}_{use\ (*)}-3(x-1)\ \ \ |(*)\ a^2-b^2=(a-b)(a+b)\\\\=2x\underbrace{(x-1)}_{(**)}(x+1)-3\underbrace{(x-1)}_{(**)}\\\\=(x-1)[2x(x+1)-3]\\\\=(x-1)\underbrace{(2x^2+2x-3)}_{(***)}\\\\(***)\ 2x^2+2x-3\to a=2;\ b=2;\ c=-3\\\\x=\frac{b^2\pm\sqrt{b^2-4ac}}{2a}[/tex][tex]therefore\\x=\frac{-2\pm\sqrt{2^2-4(2)(-3)}}{2(2)}=\frac{-2\pm\sqrt{4+24}}{4}=\frac{-2\pm\sqrt{28}}{4}=\frac{-2\pm\sqrt{4\cdot7}}{4}=\frac{-2\pm2\sqrt7}{4}\\\\=\frac{-1\pm\sqrt7}{2}\\\\so,\ the\ answer:\\\\(x-1)\cdot2\left(x-\frac{-1-\sqrt7}{2}\right)\left(x-\frac{-1+\sqrt7}{2}\right)\\\\=\boxed{(x-1)(2x+1+\sqrt7)\left(x+\frac{1-\sqrt7}{2}\right)}=\boxed{\frac{1}{2}(x-1)(2x+1+\sqrt7)(2x+1-\sqrt7)}[/tex]

2x³ - 5x +3P = Finding the divisors of the constant 3 : 1 and 3Q = Finding the divisors of the master coefficient 2 : 1 and 2 Now verify the probably roots: +- p/q+- 1/1  ,  +-1/2  , +-3/1   ,  +-3/2  +-1  ,      +-1/2  , +-3      , +- 3/2x=1 is root: 2x³-5x+3   = 2(1)³-5(1)+3 = 0If x=1 is root, so x-1=0Divinding by (x-1) 2x³+0x²-5x+3  | x-1           -2x³+2x²            2x² +2x-3  0  +2x²-5x       -2x²+2x         0  -3x +3              3x - 3               0    0 So, 2x³-5x+3 =  (x-1)(2x²+2x-3)(x-1)(2x²+2x-3)