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A quadratic polynomial must have zeros, though they may be complex numbers.A quadratic polynomial with no real zeros is one whose discriminant b2-4ac is negative. Such a polynomial has no special name.
In the real domain, yes. In the complex domain, no.
Basically, a rational expression is one that can be written as one polynomial, divided by another polynomial.
A rational function is the quotient of two polynomial functions.
A rational function is the ratio of two polynomial functions. The function that is the denominator will have roots (or zeros) in the complex field and may have real roots. If it has real roots, then evaluating the rational function at such points will require division by zero. This is not defined. Since polynomials are continuous functions, their value will be close to zero near their roots. So, near a zero, the rational function will entail division by a very small quantity and this will result in the asymptotic behaviour.
A quadratic polynomial must have zeros, though they may be complex numbers.A quadratic polynomial with no real zeros is one whose discriminant b2-4ac is negative. Such a polynomial has no special name.
Find All Possible Roots/Zeros Using the Rational Roots Test f(x)=x^4-81 ... If a polynomial function has integer coefficients, then every rational zero will ...
In the real domain, yes. In the complex domain, no.
The polynomial is (x + 1)*(x + 1)*(x - 1) = x3 + x2 - x - 1
That's the definition of a "rational function". You simply divide a polynomial by another polynomial. The result is called a "rational function".
The zeros of a polynomial represent the points at which the graph crosses (or touches) the x-axis.
in math, a real number that is not the root of any polynomial with rational coefficients is called transcendental.
There cannot be such a polynomial. If a polynomial has rational coefficients, then any complex roots must come in conjugate pairs. In this case the conjugate for 2-3i is not a root. Consequently, either (a) the function is not a polynomial, or (b) it does not have rational coefficients, or (c) 2 - 3i is not a root (nor any other complex number), or (d) there are other roots that have not been mentioned. In the last case, the polynomial could have any number of additional (unlisted) roots and is therefore indeterminate.
Basically, a rational expression is one that can be written as one polynomial, divided by another polynomial.
A rational function is the quotient of two polynomial functions.
A rational function is the ratio of two polynomial functions. The function that is the denominator will have roots (or zeros) in the complex field and may have real roots. If it has real roots, then evaluating the rational function at such points will require division by zero. This is not defined. Since polynomials are continuous functions, their value will be close to zero near their roots. So, near a zero, the rational function will entail division by a very small quantity and this will result in the asymptotic behaviour.
The given polynomial does not have factors with rational coefficients.