Resultant (algebra): Difference between revisions
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In [[algebra]], the '''resultant''' of two polynomials is a quantity which determines whether or not they have a [[factor]] in common. | In [[algebra]], the '''resultant''' of two polynomials is a quantity which determines whether or not they have a [[factor]] in common. | ||
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The determinant of the Sylvester matrix is the resultant of ''f'' and ''g''. | The determinant of the Sylvester matrix is the resultant of ''f'' and ''g''. | ||
The rows of the Sylvester matrix may be interpreted as the coefficients of the polynomials | |||
:<math>X^0 f, X^1 f, \ldots, X^{m-1} f, X^0 g, X^1 g, \ldots, X^{n-1} g \,</math> | |||
and expanding the determinant we see that | |||
:<math>R(f,g) = a(X) f(X) + b(X) g(X) </math> | |||
with ''a'' and ''b'' polynomials of degree at most ''m''-1 and ''n''-1 respectively, and ''R'' a scalar. If ''f'' and ''g'' have a polynomial common factor this must divide ''R'' and so ''R'' must be zero. Conversely if ''R'' is zero, then ''f''/''g'' = - ''b''/''a'' so ''f''/''g'' is not in lowest terms and ''f'' and ''g'' have a common factor. | |||
==References== | |||
* {{cite book | author=J.W.S. Cassels | authorlink=J. W. S. Cassels | title=Lectures on Elliptic Curves | series=LMS Student Texts | volume=24 | publisher=[[Cambridge University Press]] | year=1991 | isbn=0-521-42530-1 }} Chapter 16. | |||
* {{cite book | author=Serge Lang | authorlink=Serge Lang | title=Algebra | edition=3rd ed | publisher=[[Addison-Wesley]] | year=1993 | isbn=0-201-55540-9 | pages=200-204 }}[[Category:Suggestion Bot Tag]] |
Latest revision as of 16:00, 11 October 2024
In algebra, the resultant of two polynomials is a quantity which determines whether or not they have a factor in common.
Given polynomials
and
with roots
respectively, the resultant R(f,g) with respect to the variable x is defined as
The resultant is thus zero if and only if f and g have a common root.
Sylvester matrix
The Sylvester matrix attached to f and g is the square (m+n)×(m+n) matrix
in which the coefficients of f occupy m rows and those of g occupy n rows.
The determinant of the Sylvester matrix is the resultant of f and g.
The rows of the Sylvester matrix may be interpreted as the coefficients of the polynomials
and expanding the determinant we see that
with a and b polynomials of degree at most m-1 and n-1 respectively, and R a scalar. If f and g have a polynomial common factor this must divide R and so R must be zero. Conversely if R is zero, then f/g = - b/a so f/g is not in lowest terms and f and g have a common factor.
References
- J.W.S. Cassels (1991). Lectures on Elliptic Curves. Cambridge University Press. ISBN 0-521-42530-1. Chapter 16.
- Serge Lang (1993). Algebra, 3rd ed. Addison-Wesley, 200-204. ISBN 0-201-55540-9.