Quadratic equation and roots HELP PLEASE!! (1 Viewer)

samsonhohoho · Sep 16, 2012

In the equation (c-2)x^2 - 5x + 2c + 3 = 0, the roots are reciprocals of each other. Find the value of c. Please help and show your working. Thanks

RealiseNothing · Sep 16, 2012

Product of roots:

$\frac{c}{a} = \frac{2c+3}{c-2}$

But since they are reciprocals, they multiply together to obtain 1, hence:

$c-2 = 2c+3$

$c=-5$

samsonhohoho · Sep 16, 2012

the answer i found in the answer sheet is c = -5 !?

RealiseNothing said:
Product of roots:

$\frac{c}{a} = \frac{3}{c-2}$

But since they are reciprocals, they multiply together to obtain 1, hence:

$c-2 = 3$

$c=5$

RealiseNothing · Sep 16, 2012

samsonhohoho said:
the answer i found in the answer sheet is c = -5 !?

I did a typo. Check now.

samsonhohoho · Sep 16, 2012

it says the roots are d and 1 over d. I get this part but then it says

d*1/d = 2e+3 over (c-2) <-- i dont get this, maybe the syllabus changed and the teacher didnt teach us that

RealiseNothing · Sep 16, 2012

samsonhohoho said:
it says the roots are d and 1 over d. I get this part but then it says

d*1/d = 2e+3 over (c-2) <-- i dont get this, maybe the syllabus changed and the teacher didnt teach us that

Have you done the product of roots?

samsonhohoho · Sep 16, 2012

probably not, im in prelim this year

Alkanes · Sep 16, 2012

Basic polynomials is taught during prelim from memory.

samsonhohoho · Sep 16, 2012

I think the syllabus have changed

RealiseNothing · Sep 16, 2012

samsonhohoho said:
probably not

Ok well sums and products of roots 101 time:

Let's think of the general quadratic equation:

$ax^2 + bx + c = 0$

Now if we factorise this to find the roots, it looks like this:

$(x - \alpha)(x - \beta)$

Where $\alpha ~$and$~ \beta ~$are the two roots$$

Now expand this:

$(x - \alpha)(x - \beta) = x^2 - x\alpha - x\beta + \alpha \beta = x^2 - (\alpha + \beta)x + \alpha \beta$

If we consider the general equation again, we can make a relationship between the roots and co-efficients of a quadratic. However the above equation is monic, so we have to make the general equation monic as well by dividing by 'a':

$x^2 + \frac{b}{a}x + \frac{c}{a} = 0$

Now if we equate the two expressions we have:

$x^2 + \frac{b}{a}x + \frac{c}{a} = x^2 - (\alpha + \beta)x + \alpha \beta$

So if we equate the co-efficients of each side we get:

$\frac{b}{a} = -(\alpha + \beta)$

Which becomes:

$(\alpha + \beta) = \frac{-b}{a}$

Since alpha and beta are the sum of the roots, we can say that the sum of the roots is equal to $\frac{-b}{a}$

Like-wise:

$\frac{c}{a} = \alpha \beta$

Since alpha times beta is the product of the roots, we can say that the product of the roots is $\frac{c}{a}$

RealiseNothing · Sep 16, 2012

samsonhohoho said:
I think the syllabus have changed

It hasn't changed.

Quadratic equation and roots HELP PLEASE!! (1 Viewer)

samsonhohoho

New Member

RealiseNothing

what is that?It is Cowpea

samsonhohoho

New Member

RealiseNothing

what is that?It is Cowpea

samsonhohoho

New Member

RealiseNothing

what is that?It is Cowpea

samsonhohoho

New Member

Alkanes

Active Member

samsonhohoho

New Member

RealiseNothing

what is that?It is Cowpea

RealiseNothing

what is that?It is Cowpea

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