Answer :

Okay, here we have this:

Considering the provided equation, we will identify if its roots are negative, positive or imaginary, so we obtain the following:

[tex]f(x)=3x^4-2x^3-5x^2+6x-2[/tex]

According to the rule of the signs of Descartes, we can identify that since in f(x) there are three changes of signs then there will be 1 or 3 positive roots.

Now, let's find p(-x) to see how many possible negative roots there are:

[tex]\begin{gathered} f(-x)=3\mleft(-x\mright)^4-2\mleft(-x\mright)^3-5\mleft(-x\mright)^2+6\mleft(-x\mright)-2 \\ f(-x)=3x^4+2x^3-5x^2-6x-2 \end{gathered}[/tex]

Since there is only one sign change, then there is only one negative root.

Now, finally we will factor it to see how many positive roots we can get:

[tex]\begin{gathered} 3x^4-2x^3-5x^2+6x-2=0 \\ \mleft(x-1\mright)\mleft(3x^3+x^2-4x+2\mright)=0 \end{gathered}[/tex]

As it cannot be simplified further, we finally obtain that f (x) has a positive root, a negative root and two imaginary ones.

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