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A polynomial is an expression made up of adding and subtracting terms. A terms can consist of constants, coefficients, and variables. When solving polynomials, you usually trying to figure out for which x-values y=0. Lower-degree polynomials will have zero, one or two real solutions, depending on whether they are linear polynomials or quadratic polynomials. These types of polynomials can be easily solved using basic algebra and factoring methods. For help solving polynomials of a higher degree, read Solve Higher Degree Polynomials .

Method 1
Method 1 of 2:

Solving a Linear Polynomial

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  1. A linear polynomial is a polynomial of the first degree. [1] This means that no variable will have an exponent greater than one. Because this is a first-degree polynomial, it will have exactly one real root, or solution. [2]
    • For example, is a linear polynomial, because the variable has no exponent (which is the same as an exponent of 1).
  2. This is a necessary step in solving all polynomials. [3]
    • For example,
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  3. To do this, add or subtract the constant from both sides of the equation. [4] A constant is a term without a variable. [5]
    • For example, to isolate the term in , you would subtract from both sides of the equation:


  4. Usually you will need to divide each side of the equation by the coefficient. This will give you the root, or solution, to your polynomial. [6]
    • For example, to solve for in , you would divide each side of the equation by :



      So, the solution to is .
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Method 2
Method 2 of 2:

Solving a Quadratic Polynomial

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  1. A quadratic polynomial is a polynomial of the second degree. [7] This means that no variable will have an exponent greater than 2. Because this is a second-degree polynomial, it will have two real roots, or solutions. [8]
    • For example, is a quadratic polynomial, because the variable has an exponent of .
  2. This means that the term with the exponent of is listed first, followed by the first-degree term, followed by the constant. [9]
    • For example, you would rewrite as .
  3. This is a necessary step for solving all polynomials. [10]
    • For example, .
  4. To do this, split up the first-degree term (the term). You are looking for two numbers whose sum is equal to the first degree coefficient, and whose product is equal to the constant. [11]
    • For example, for the quadratic polynomial , you need to find two numbers ( and ), where , and .
    • Since you have , you know that one of the number will be negative.
    • You should see that and . Thus, you will split up into and rewrite the quadratic polynomial: .
  5. To do this, factor out a term common to the first two terms in the polynomial. [12]
    • For example, the first two terms in the polynomial are . A term common to both is . Thus, the factored group is .
  6. To do this, factor out a term common to the second two terms in the polynomial. [13]
    • For example, the second two terms in the polynomial are . A term common to both is . Thus, the factored group is .
  7. A binomial is a two-term expression. You already have one binomial, which is the expression in parentheses for each group. This expression should be the same for each group. The second binomial is created by combining the two terms that were factored out of each group. [14]
    • For example, after factoring by grouping, becomes .
    • The first binomial is .
    • The second binomial is .
    • So the original quadratic polynomial, can be written as the factored expression .
  8. To do this, solve for in the first binomial. [15]
    • For example, to find the first root for , you would first set the first binomial expression to and solve for . Thus:



      So, the first root of the quadratic polynomial is .
  9. To do this, solve for in the second binomial. [16]
    • For example, to find the second root for , you would set the second binomial expression to and solve for . Thus:



      So, the second root of the quadratic polynomial is .
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  • Question
    How did you get -2 in the second binomial?
    Donagan
    Top Answerer
    The original equation was 5x + 2 = 0. Then 2 was subtracted from both sides of the equation in order to begin the process of solving for x. This resulted in 5x = -2.
  • Question
    What do I get if I add x - 2 and 1/x?
    Donagan
    Top Answerer
    You get x - 2 + 1/x.
  • Question
    For trinomials, would I turn them into a quadratic polynomials and then binomials?
    Community Answer
    Yes. To factor a trinomial, you must split it into a quadratic polynomial.
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      • Remember the order of operations while you work -- First work in the parenthesis, then do the multiplication and division, and finally do the addition and subtraction. [17]
      • Don't fret if you get different variables, like t, or if you see an equation set to f(x) instead of 0. If the question wants roots, zeros, or factors, just treat it like any other problem.
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      About This Article

      Article Summary X

      To solve a linear polynomial, set the equation to equal zero, then isolate and solve for the variable. A linear polynomial will have only one answer. If you need to solve a quadratic polynomial, write the equation in order of the highest degree to the lowest, then set the equation to equal zero. Rewrite the expression as a 4-term expression and factor the equation by grouping. Rewrite the polynomial as 2 binomials and solve each one. If you want to learn how to simplify and solve your terms in a polynomial equation, keep reading the article!

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