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CK-12 Algebra I PDF

1095 Pages·2010·50.47 MB·Spanish
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Except as otherwise noted, all CK-12 Content (including CK-12 Curriculum Material) is made available to Users in accordance with the Creative Commons Attribution/Non-Commercial/Share Alike 3.0 Unported (CC-by-NC-SA) License (http://creativecommons.org/licenses/by-nc-sa/3.0/), as amended and updated by Creative Commons from time to time (the "CC License"), which is incorporated herein by this reference. Specific details can be found from http://www.ck12.org/terms. ISBN :9781935983118 Chapter 1: Equations and Functions Variable Expressions Learning Objectives Evaluate algebraic expressions. Evaluate algebraic expressions with exponents. Introduction – The Language of Algebra Do you like to do the same problem over and over again? No? Well, you are not alone. Algebra was invented by mathematicians so that they could solve a problem once and then use that solution to solve a group of similar problems. The big idea of algebra is that once you have solved one problem you can generalize that solution to solve other similar problems. In this course, we'll assume that you can already do the basic operations of arithmetic. In arithmetic, only numbers and their arithmetical operations (such as ) occur. In algebra, numbers (and sometimes processes) are denoted by symbols (such as ). These symbols are called variables. The letter , for example, will often be used to represent some number. The value of , however, is not fixed from problem to problem. The letter will be used to represent a number which may be unknown (and for which we may have to solve) or it may even represent a quantity which varies within that problem. Using variables offers advantages over solving each problem “from scratch”: It allows the general formulation of arithmetical laws such as for all real numbers and . It allows the reference to “unknown” numbers, for instance: Find a number such that . It allows short-hand writing about functional relationships such as, “If you sell tickets, then your profit will be dollars, or ,” where “ ” is the profit function, and is the input (i.e. how many tickets you sell). Example 1 Write an algebraic expression for the perimeter and area of the rectangle as follows. To find the perimeter, we add the lengths of all sides. We can start at the top- left and work clockwise. The perimeter, , is therefore: We are adding 's and 's. Would say that: You are probably familiar with using instead of for multiplication, so you may prefer to write: It's customary in algebra to omit multiplication symbols whenever possible. For example, means the same thing as or . We can therefore write the expression for as: Area is length multiplied by width. In algebraic terms we get the expression: Note: An example of a variable expression is ; an example of an equation is The main difference between equations and expressions is the presence of an equals sign . In the above example, there is no simpler form for these equations for the perimeter and area. They are, however, perfectly general forms for the perimeter and area of a rectangle. They work whatever the numerical values of the length and width of some particular rectangle are. We would simply substitute values for the length and width of a real rectangle into our equation for perimeter and area. This is often referred to as substituting (or plugging in) values. In this chapter we will be using the process of substitution to evaluate expressions when we have numerical values for the variables involved. Evaluate Algebraic Expressions When we are given an algebraic expression, one of the most common things we will have to do with it is evaluate it for some given value of the variable. The following example illustrates this process. Example 2 Let . Find the value of . To find the solution, substitute for in the given expression. Every time we see we will replace it with . Note: At this stage we place the value in parentheses: The reason we place the substituted value in parentheses is twofold: 1. It will make worked examples easier for you to follow. 2. It avoids any confusion that would arise from dropping a multiplication sign: . Example 3 Let . Find the value of . Solution Example 4 Let . Find the value of . Solution Many expressions have more than one variable in them. For example, the formula for the perimeter of a rectangle in the introduction has two variables: length and width . In these cases be careful to substitute the appropriate value in the appropriate place. Example 5 The area of a trapezoid is given by the equation . Find the area of a trapezoid with bases and height . To find the solution to this problem we simply take the values given for the variables, and , and plug them in to the expression for : Solution: The area of the trapezoid is centimeters. Example 6 Find the value of when , and . Let's plug in values for , and and then evaluate the resulting expression. Solution (rounded to the nearest hundredth) Example 7 The total resistance of two electronics components wired in parallel is given by where and are the individual resistances (in ohms) of the two components. Find the combined resistance of two such wired components if their individual resistances are and Solution The combined resistance is Evaluate Algebraic Expressions with Exponents Many formulas and equations in mathematics contain exponents. Exponents are used as a short-hand notation for repeated multiplication. For example: The exponent stands for how many times the number is used as a factor (multiplied). When we deal with integers, it is usually easiest to simplify the expression. We simplify: and However, we need exponents when we work with variables, because it is much easier to write than . To evaluate expressions with exponents, substitute the values you are given for each variable and simplify. It is especially important in this case to substitute using parentheses in order to make sure that the simplification is done correctly. Example 8 The area of a circle is given by the formula . Find the area of a circle with radius . Substitute values into the equation. The area is approximately . Example 9 Find the value of for and . Substitute values in the following: Example 10 Find the value of , for . Substitute the value of in the expression: Example 11 Find the value of , for and . Substitute the values of and in the following. Example 12 The height of a ball in flight is given by the formula: , where the height is given in feet and the time is given in seconds. Find the height of the ball at time . Solution Review Questions Write the following in a more condensed form by leaving out a multiplication symbol. 1. 2. 3. 4. Evaluate the following expressions for and . 1. 2. 3. 4. 5. 6. 7. 8. Evaluate the following expressions for and . 1. 2. 3. 4. 5. 6. 7. 8. 9. The weekly cost of manufacturing remote controls is given by the formula , where the cost is given in dollars. 1. What is the cost of producing remote controls? 2. What is the cost of producing remote controls? 10. The volume of a box without a lid is given by the formula: where is a length in inches and is the volume in cubic inches. 1. What is the volume when ? 2. What is the volume when ? Review Answers 1. 2. 3. 4. 5. 6.

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Product Description CK-12 Foundation's Algebra FlexBook is an introduction to algebraic concepts for the high school student. Topics include: Equations & Functions, Real Numbers, Equations of Lines, Solving Systems of Equations & Quadratic Equations.
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