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Hawkes Learning Systems: College Algebra

Hawkes Learning Systems: College Algebra. 2.5: Rational Expressions and Equations. Objectives. Simplifying rational expressions. Operations with rational expressions. Simplifying complex rational expressions. Solving rational equations. Work-rate problems. .

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Hawkes Learning Systems: College Algebra

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  1. Hawkes Learning Systems: College Algebra 2.5: Rational Expressions and Equations

  2. Objectives • Simplifying rational expressions. • Operations with rational expressions. • Simplifying complex rational expressions. • Solving rational equations. • Work-rate problems.

  3. Simplifying Rational Expressions A rational expression is an expression that can be written as a ratio of two polynomials . Of course, such a fraction is undefined for many value(s) of the variable(s) for which . A given rational expression is simplified or reduced when and contain no common factors (other than and ). Ex:

  4. Simplifying Rational Expressions • To simplify rational expressions, we factor the polynomials in the numerator and denominator completely, and cancel any common factors. • However, the simplified rational expression may be defined for values of the variable(s) that the original expression is not, and the two versions are equal only where they are both defined. That is, if , and represent algebraic expressions, .

  5. Example: Simplifying Rational Expressions Simplify the rational expression, and indicate values of the variable that must be excluded. Step 1: Factor both polynomials. Step 2: Cancel common factors. Note: The final expression is defined only where both the simplified and original expressions are defined.

  6. Example: Simplifying Rational Expressions Simplify the rational expression, and indicate values of the variable that must be excluded.

  7. Simplifying Rational Expressions Caution! Remember that only common factors can be cancelled! A very common error is to think is to think that common terms from the numerator and denominator can be cancelled. For instance, the statement is incorrect. is already simplified as far as possible.

  8. Operations with Rational Expressions • To add or subtract two rational expressions, a common denominator must first be found. • To multiply two rational expressions, the two numerators are multiplied and the two denominators are multiplied. • To divide one rational expression by another, the first is multiplied by the reciprocal of the second. • No matter which operation is being considered, it is generally best to factor all the numerators and denominators before combining rational expressions.

  9. Example: Add/Subtract Rational Expressions Subtract the rational expression. Step 1: Factor both denominators. Step 2: Multiply to obtain the least common denominator (LCD) and simplify.

  10. Example: Add/Subtract Rational Expressions Add and subtract the rational expressions.

  11. Example: Multiply Rational Expressions Multiply the rational expression.

  12. Example: Divide Rational Expressions Divide the rational expression.

  13. Simplifying Complex Rational Expressions • A complex rational expression is a fraction in which the numerator or denominator (or both) contains at least one rational expression. For example, • Complex rational expressions can always be rewritten as simple rational expressions. • One way to do this is to multiply the numerator and denominator by the least common denominator (LCD) of all the fractions that make up the complex rational expression.

  14. Example: Complex Rational Expressions Simplify the complex rational expression. Step 1: Multiply the numerator and the denominator by the LCD . Step 2: Cancel the common factor of .

  15. Solving Rational Equations • A rational equation is an equation that contains at least one rational expression, while any non-rational expressions are polynomials. • To solve these, we multiply each term in the equation by the LCD of all the rational expressions. This converts rational expressions into polynomials, which we already know how to solve. • However, values for which rational expressions in a rational equation are not defined must be excluded from the solution set.

  16. Example: Solving Rational Equations Solve the rational equation. Step 1: Factor the numerators and denominators, and cancel common factors. Step 2: Multiply both sides by the LCD. Step 3: Solve by factoring. Note: cannot be a solution.

  17. Example: Solving Rational Equations Solve the rational equation.

  18. Work-Rate Problems • In a work-rate problem, two or more “workers” are acting in unison to complete a task. • The goal in a work-rate problem is usually to determine how fast the task at hand can be completed, either by the workers together or by one worker alone.

  19. Work-Rate Problems There are two keys to solving a work-rate problem: • The rate of work is the reciprocal of the time needed to complete the task. If a given job can be done by a worker in units of time, the worker works at a rate of jobs per unit of time. • Rates of work are “additive”.This means that two workers working together on the same task have a combined rate of work that is the sum of their individual rates. Rate 1 Rate 2 Rate Together

  20. Example: Work-Rate Problem One hose can fill a swimming pool in 10 hours. The owner buys a second hose that can fill the pool in half the time of the first one. If both hoses are used together, how long does it take to fill the pool? The work rate of the first hose is The work rate of the second hose is Step 1: Set up the problem. Step 2: Multiply both sides by the LCD , and solve. hours

  21. Example: Work-Rate Problems The pool owner from the last example fills his empty pool with the two hoses, but accidentally turns on the pump that drains the pool also. The pump rate is slower than the combined rate of the two hoses, and the pool fills anyway, but it takes 20 hours to do so. At what rate can the pump empty the pool?

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