![]() ![]() Let’s see how our equation solver solves this and similar problems. Since both factors are the same, there is only one solution.Ĥ(x-3)(x+2)=0 The constant factor 4 can never be 0 and does not affect the solution. X^2+9x-22=0 One side of the equation must be 0. Solve the following quadratic equations by factoring. Using techniques other than factoring to solve quadratic equations is discussed in Chapter 10. Not all quadratics can be factored using integer coefficients. Each of these solutions is a solution of the quadratic equation. Putting each factor equal to 0 gives two first-degree equations that can easily be solved. Equations of the formįactoring the quadratic expression, when possible, gives two factors of first degree. Polynomials of second degree are called quadratics. The reason is that a product is 0 only if at least one of the factors is 0. Thus, to solve an equation involving a product of polynomials equal to 0, we can let each factor in turn equal 0 to find all possible solutions. Since we have a product that equals 0, we allow one of the factors to be 0. This procedure does not help because x^2-5x+6=0 is not any easier to solve than the original equation. Now consider an equation involving a product of two polynomials such as ![]() But did you think that x - 2 had to be 0? This is true because 5 * 0 = 0, and 0 is the only number multiplied by 5 that will give a product of 0. How would you solve the equation 5(x-2)=0? Would you proceed in either of the following ways?īoth ways are correct and yield the solution x = 2. ![]() Either will work as a solution.5.4 Solving Quadratic Equations by Factoring We want to add 14x to both sides of the equation: Step 1) Write the quadratic equation in standard form. Either will work as a solution.Įxample 2: Solve each quadratic equation using factoring. Step 3) Use the zero-product property and set each factor with a variable equal to zero: We want to subtract 18 away from each side of the equation: Use the zero-product property and set each factor with a variable equal to zeroĮxample 1: Solve each quadratic equation using factoring.Place the quadratic equation in standard form. ![]() In either scenario, the equation would be true:Ġ = 0 Solving a Quadratic Equation using Factoring To do this, we set each factor equal to zero and solve:Įssentially, x could be 2 or x could be -3. This means we can use our zero-product property. The result of this multiplication is zero. In this case, we have a quantity (x - 2) multiplied by another quantity (x + 3). We can apply this to more advanced examples. Y could be 0, x could be a non-zero number X could be 0, y could be a non-zero number The zero product property tells us if the product of two numbers is zero, then at least one of them must be zero: This works based on the zero-product property (also known as the zero-factor property). When a quadratic equation is in standard form and the left side can be factored, we can solve the quadratic equation using factoring. For these types of problems, obtaining a solution can be a bit more work than what we have seen so far. Some examples of a quadratic equation are:ĥx 2 + 18x + 9 = 0 Zero-Product Property Up to this point, we have not attempted to solve an equation in which the exponent on a variable was not 1. Generally, we think about a quadratic equation in standard form:Ī ≠ 0 (since we must have a variable squared)Ī, b, and c are any real numbers (a can't be zero) A quadratic equation is an equation that contains a squared variable and no other term with a higher degree. We will expand on this knowledge and learn how to solve a quadratic equation using factoring. A quadratic expression contains a squared variable and no term with a higher degree. Over the course of the last few lessons, we have learned to factor quadratic expressions. ![]()
0 Comments
Leave a Reply.AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |