Difference between revisions of "Discriminant"

Revision as of 18:19, 10 October 2023

The discriminant of a quadratic equation of the form $a{x}^2+b{x}+{c}=0$ is the quantity $b^2-4ac$ . When ${a},{b},{c}$ are real, this is a notable quantity, because if the discriminant is positive, the equation has two real roots; if the discriminant is negative, the equation has two nonreal roots; and if the discriminant is 0, the equation has a real double root.

Discriminant of polynomials of degree n

The discriminant can tell us something about the roots of a given polynomial $p(x)=a_nx^n+a_{n-1}x^{n-1}+...+a_0$ of degree $n$ with all the coefficients being real. But for polynomials of degree 4 or higher it can be difficult to use it.

General formula of discriminant

We know that the discriminant of a polynomial is the product of the squares of the differences of the polynomial roots $r_i$ , so,

$D(p)=a_n^{2n-2}\prod_{i<j}^{n}(r_i-r_j)^2$

When $n=2$

Given a polynomial $p(x)=ax^2+bx+c$ , its discriminant is $D(p)=b^2-4ac$ , which can also be denoted by $\Delta=b^2-4ac$ .

For $\Delta>0$ we have the graph

which has two distinct real roots.

For $\Delta<0$ we have the graph

which has two non-real roots.

And for the case $\Delta=0$ ,

When $n=3$

The discriminant of a polynomial $p(x)=ax^3+bx^2+cx+d$ is given by $D(p)=b^2c^2-4b^3d-4ac^3+18abcd-27a^2d^2$ .

Also, the compressed cubic form $p(z)=z^3+pz+q$ has discriminant $D(p)=-4p^3-27q^2$ . We can compress a polynomial of degree 3, which also makes possible to us to use Cardano's formula, by doing the substitution $x=z-\frac{a}{3}$ on the polynomial $p(x)=x^3+ax^2+bx+c$ .

If $D=0$ , then at least two of the roots are equal;
If $D<0$ , then all three roots are real and distinct;
If $D>0$ , then one of the roots is real and the other two are complex conjugate.

When $n=4$

The quartic polynomial $p(x)=ax^4+bx^3+cx^2+dx+e$ has discriminant

$D(p)=256a^3e^3-192a^2bde^2-128a^2c^2e^2+144a^2cd^2e-27a^2d^4+144ab^2ce^2-6ab^2d^2e-80abc^2de+18abcd^3+16ac^4e-4ac^3d^2-27b^4e^2+18b^3cde-4b^3d^3-4b^2c^3e+b^2c^2d^2$

If $D=0$ , then at least two of the roots are equal;
If $D>0$ , then the roots are all real or all non-real;
If $D<0$ , then there are two real roots and two complex conjugate roots.

Some properties

For $n\geq4$ we can say that

The polynomial has a multiple root if, and only if, $D=0$ ;
If $D>0$ , with $k$ being a positive integer such that $k\geq\frac{n}{4}$ , with $n$ being the degree of the polynomial, then there are $2k$ pairs of complex conjugate roots and $n-4k$ real roots;
If $D<0$ , with $k$ being a positive integer such that $k\geq\frac{n-2}{4}$ , then there are $2k+1$ pairs of complex conjugate roots and $n-4k+2$ real roots.

Example Problems

Introductory

(AMC 12 2005) There are two values of $a$ for which the equation $4x^2+ax+8x+9=0$ has only one solution for $x$ . What is the sum of these values of $a$ ?

Solution: Since we want the $a$ 's where there is only one solution for $x$ , the discriminant has to be $0$ . $(a+8)^2-4(4)(9)=a^2+16a-80=0$ . The sum of these values of $a$ is $-16$ .

Intermediate

1977 Canadian MO Problem 1

Other resources

Wikipedia entry

@@ Line 13: / Line 13: @@
 ====When <math>n=2</math>====
-Given a polynomial <math>p(x)=ax^2+bx+c</math>, its discriminant is <math>D(p)=b^2-4ac</math>, wich can also be denoted by <math>\Delta=b^2-4ac</math>.
+Given a polynomial <math>p(x)=ax^2+bx+c</math>, its discriminant is <math>D(p)=b^2-4ac</math>, which can also be denoted by <math>\Delta=b^2-4ac</math>.
 For <math>\Delta>0</math> we have the graph
@@ Line 20: / Line 20: @@
 [[Image:Delta_greater_than_0.png|thumb|center|300x300px]]
-wich has two distinct real roots.
+which has two distinct real roots.
 For <math>\Delta<0</math> we have the graph
@@ Line 26: / Line 26: @@
 [[File:Delta_lower_than_0.png|thumb|center|300x300px]]
-wich has two non-real roots.
+which has two non-real roots.
 And for the case <math>\Delta=0</math>,
@@ Line 37: / Line 37: @@
-Also, the compressed [[cubic Equation|cubic]] form <math>p(z)=z^3+pz+q</math> has discriminant <math>D(p)=-4p^3-27q^2</math>. We can compress a polynomial of degree 3, wich also makes possible to us to use Cardano's formula, by doing the substitution <math>x=z-\frac{a}{3}</math> on the polynomial <math>p(x)=x^3+ax^2+bx+c</math>.
+Also, the compressed [[cubic Equation|cubic]] form <math>p(z)=z^3+pz+q</math> has discriminant <math>D(p)=-4p^3-27q^2</math>. We can compress a polynomial of degree 3, which also makes possible to us to use Cardano's formula, by doing the substitution <math>x=z-\frac{a}{3}</math> on the polynomial <math>p(x)=x^3+ax^2+bx+c</math>.
 *If <math>D=0</math>, then at least two of the roots are equal;

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