It is an algebraic factor.
It is x^2 -4 = (x-2)(x+2) when factored and it is the difference of two squares
There are none because the discriminant of the given quadratic expression is less than zero.
by synthetic division and quadratic equation
The answer can be any number that you like: it is always possible to find a polynomial of order 5 to fit the given numbers and any other number.The lowest degree polynomial that will fit the given numbers is the quadraticUn = (9n2 - 205n + 792)/2 for n = 1, 2, 3, .. . and that gives the next number as -57.The answer can be any number that you like: it is always possible to find a polynomial of order 5 to fit the given numbers and any other number.The lowest degree polynomial that will fit the given numbers is the quadraticUn = (9n2 - 205n + 792)/2 for n = 1, 2, 3, .. . and that gives the next number as -57.The answer can be any number that you like: it is always possible to find a polynomial of order 5 to fit the given numbers and any other number.The lowest degree polynomial that will fit the given numbers is the quadraticUn = (9n2 - 205n + 792)/2 for n = 1, 2, 3, .. . and that gives the next number as -57.The answer can be any number that you like: it is always possible to find a polynomial of order 5 to fit the given numbers and any other number.The lowest degree polynomial that will fit the given numbers is the quadraticUn = (9n2 - 205n + 792)/2 for n = 1, 2, 3, .. . and that gives the next number as -57.
The polynomial is (x + 1)*(x + 1)*(x - 1) = x3 + x2 - x - 1
The discriminant polynomial is always [ b2 - 4ac ]. In any given expression, it's a number. In this expression, the number is zero, indicating that the expression is a square.
Greatest Common Factor .... largest expression which (evenly) divides into the given expressions.
Since no polynomial was given, no answer will be given.
Too bad that's not a^2 - ab - 42b^2 That factors to (a + 6b)(a - 7b)
That will depend entirely on the algebraic expression which has not been given.
-79
It is: 16-20 = -4 which means that the given quadratic expression has no real roots.
A factor divides evenly into a given number.
Evaluating a polynomial is finding the value of the polynomial for a given value of the variable, usually denoted by x. Solving a polynomial equation is finding the value of the variable, x, for which the polynomial equation is true.
It is (x+6)(x-4) when factored
A factor divides evenly into a given number.
Do mean find the polynomial given its roots ? If so the answer is (x -r1)(x-r2)...(x-rn) where r1,r2,.. rn is the given list roots.