use pemdas first...
To solve polynomial inequalities, follow these steps: First, rewrite the inequality in standard form by moving all terms to one side. Next, identify the critical points by finding the roots of the corresponding polynomial equation. Then, determine the sign of the polynomial in the intervals between these critical points by testing points from each interval. Finally, express the solution based on the sign of the polynomial in relation to the inequality (e.g., greater than or less than zero).
It is a polynomial (monomial). It is a polynomial (monomial). It is a polynomial (monomial). It is a polynomial (monomial).
Polynomial vs non polynomial time complexity
No.
"Non-polynomial" can mean just about anything... How alike it is with the polynomial depends on what specifically you choose to include.
Peter B. Borwein has written: 'Polynomials and polynomial inequalities' -- subject(s): Inequalities (Mathematics), Polynomials
To solve polynomial inequalities, follow these steps: First, rewrite the inequality in standard form by moving all terms to one side. Next, identify the critical points by finding the roots of the corresponding polynomial equation. Then, determine the sign of the polynomial in the intervals between these critical points by testing points from each interval. Finally, express the solution based on the sign of the polynomial in relation to the inequality (e.g., greater than or less than zero).
It is a polynomial (monomial). It is a polynomial (monomial). It is a polynomial (monomial). It is a polynomial (monomial).
You can evaluate a polynomial, you can factorise a polynomial, you can solve a polynomial equation. But a polynomial is not a specific question so it cannot be answered.
No. A matrix polynomial is an algebraic expression in which the variable is a matrix. A polynomial matrix is a matrix in which each element is a polynomial.
Polynomial vs non polynomial time complexity
No.
monomial
"Non-polynomial" can mean just about anything... How alike it is with the polynomial depends on what specifically you choose to include.
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.
Inequalities are not reflexive. Inequalities are not commutative.
It will be a cubic polynomial.