Polynomial long division is a method used to divide one polynomial by another polynomial of a lower degree, similar to the long division process with numbers.
Steps to Perform Polynomial Long Division
- Set Up the Division
Write the dividend (the polynomial you’re dividing) and the divisor (the polynomial you are dividing by) in long division format. For example, let’s divide $2x^3 + 3x^2 – x + 5$ by $x – 1$
- Divide the Leading Terms
Divide the leading term of the dividend by the leading term of the divisor. In our example, divide $2x^3$ by $x$ to get $2x^2$. Write $2x^2$ above the division bar.
- Multiply and Subtract
Multiply $2x^2$ by the entire divisor $(x – 1)$, giving $2x^3 – 2x^2$. Subtract this from the original dividend, resulting in a new polynomial: $5x^2 – x + 5$
- Repeat the Process
Repeat the steps with the new polynomial. Divide the leading term of $5x^2$ by $x$ to get $5x$. Multiply $5x$ by $x – 1$ to get $5x^2 – 5x$. Subtract this from $5x^2 – x + 5$ to get $4x + 5$
- Continue Until Remainder is Smaller Degree
Continue this process until the degree of the remaining polynomial is less than the degree of the divisor. Divide $4x$ by $x$ to get $4$. Multiply $4$ by $x – 1$ to get $4x – 4$. Subtract this from $4x + 5$ to get $9$. The final quotient is $2x^2 + 5x + 4$ with a remainder of $9$
Example
Let’s go through an example step by step:
- Setup: Divide $2x^3 + 3x^2 – x + 5$ by $x – 1$
- First Division: $2x^3 / x = 2x^2$
- Multiply and Subtract: $2x^2 times (x – 1) = 2x^3 – 2x^2$. Subtract to get $5x^2 – x + 5$
- Second Division: $5x^2 / x = 5x$
- Multiply and Subtract: $5x times (x – 1) = 5x^2 – 5x$. Subtract to get $4x + 5$
- Third Division: $4x / x = 4$
- Multiply and Subtract: $4 times (x – 1) = 4x – 4$. Subtract to get $9$
- Result: Quotient is $2x^2 + 5x + 4$, remainder is $9$
Conclusion
Polynomial long division helps in simplifying complex polynomial expressions and finding quotients and remainders. This method is essential in algebra for solving polynomial equations and simplifying rational expressions.