Difference between revisions of "Discriminant"
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==Discriminant of polynomials of degree n== | ==Discriminant of polynomials of degree n== | ||
− | The discriminant can tell us something about the roots of a given polynomial <math>p(x)=a_nx^n+a_{n-1}x^{n-1}+...+a_0</math> of degree <math>n</math> with all the coefficients being real. But for polynomials of degree 4 or higher it can be difficult to use it. | + | The discriminant can tell us something about the roots of a given [[polynomial]] <math>p(x)=a_nx^n+a_{n-1}x^{n-1}+...+a_0</math> of degree <math>n</math> 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=== | ===General formula of discriminant=== | ||
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− | Also, the compressed 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, 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>. |
*If <math>D=0</math>, then at least two of the roots are equal; | *If <math>D=0</math>, then at least two of the roots are equal; |
Revision as of 09:10, 11 December 2020
The discriminant of a quadratic equation of the form is the quantity . When 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.
Contents
Discriminant of polynomials of degree n
The discriminant can tell us something about the roots of a given polynomial of degree 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 , so,
When
Given a polynomial , its discriminant is , wich can also be denoted by .
For we have the graph
wich has two distinct real roots.
For we have the graph
wich has two non-real roots.
And for the case ,
When
The discriminant of a polynomial is given by .
Also, the compressed cubic form has discriminant . We can compress a polynomial of degree 3, wich also makes possible to us to use Cardano's formula, by doing the substitution on the polynomial .
- If , then at least two of the roots are equal;
- If , then all three roots are real and distinct;
- If , then one of the roots is real and the other two are complex conjugate.
When
The quartic polynomial has discriminant
- If , then at least two of the roots are equal;
- If , then the roots are all real or all non-real;
- If , then there are two real roots and two complex conjugate roots.
Some properties
For we can say that
- The polynomial has a multiple root if, and only if, ;
- If , with being a positive integer such that , with being the degree of the polynomial, then there are pairs of complex conjugate roots and real roots;
- If , with being a positive integer such that , then there are pairs of complex conjugate roots and real roots.
Example Problems
Introductory
- (AMC 12 2005) There are two values of for which the equation has only one solution for . What is the sum of these values of ?
Solution: Since we want the 's where there is only one solution for , the discriminant has to be . . The sum of these values of is .