. Natural numbers (N):. Integer numbers (Z): Section. Real Numbers Types of Real Numbers,, 3, 4,,... 0, ±, ±, ±3, ±4, ±,... REMARK: Any natural number is an integer number, but not any integer number is a natural number. 3. Rational numbers (Q): 7 3 3 r m, where m Z,n N n 0. 0 0... 0. 9 0.999... 0.9 REMARK: Any integer number is a rational number, but not any rational number is an integer. 4. Irrational Numbers. These are numbers that cannot be expressed as a ratio of integers. 3 + 3 + 3 π π The set of all real numbers is denoted by R. The real numbers can be represented by points on a line which is called a coordinate line, or a real number line, or simply a real line:
Every real number has a decimal representation. If the number is rational, then its corresponding decimal is repeating. For example, 0.00... 0.0 0.49, 3 0.66666... 0.6 7 49 0.3777... 0.37, 9.874874....874 7 If the number is irrational, the decimal representation is nonrepeating:.443637309... π 3.496389793... Operations on Real Numbers Real numbers can be combined using the familiar operations of addition, subtraction, multiplication, and division. When evaluating arithmetic expressions that contain several of these operations, we use the following conventions to determine the order in which the operations are performed:. Perform operations inside parentheses first, beginning with the innermost pair. In dividing two expressions, the numerator and denominator of the quotient are treated as if they are within parentheses.. Perform all multiplications and divisions, working from left to right. 3. Perform all additions and subtractions, working from left to right.. 7 3+8+ 4+8+ + 7. 8+4 8+8 6 ( 4 3. 9 3 49 ) ( 6 + 7 7 3 ) 8 ( ) 8+0 4. 3 3 +4 (+9) 9(8 7)+(8 4) 9 + 4 9+0 9
4. We have ( ) ( ) 8+0 8 3 3 +4 (+9) 3 6 +4 (+9) 3(3+4) (+9) 3 7 4 8 7 Properties of Real Numbers The Figure below explains why the Distributive Property works:. (3+8) 3+ 8 +40. ( b+3c)a ( b) a+3c a ab+6ac 3. (a+b)(c+d) a(c+d)+b(c+d) ac+ad+bc+bd 3. (a+b)(c+d) (a+b)c+(a+b)d ac+bc+ad+bd 3
Addition and Subtraction The number 0 is special for addition; it is called the additive identity because a+0 a for any real number a. Every real number a has a negative, a, that satisfies a+( a) 0 Subtraction is the operation that undoes addition; to subtract a number from another, we simply add the negative of that number. By definition a b a+( b) To combine real numbers involving negatives, we use the following properties.. (8 ) (6) 8 7. (8 ) ( 7) () 7. ( 3+y z) () ( 3) y ( z) () 3 y +z 4
Multiplication and Division. 4 or 4. 3. 4. 4. 7 0 4 or 0 7 0 7 7 + 0 + 3 + 0 + 3 + +3 0 0 + 3 0 3 + 3 4 7 9 0 4 0 4 4 9 0 0 4 9 0 0 4 9 4 9 0 3+3 30 9 0 9 30 9 3 3 9 0 30 9 9 30 0 9 3. Evaluate 36 + 7 0.
. Evaluate 36 + 7 0. Solution : We have Solution : We have 36 + 7 0 0+7 36 36 0 600+ 430 8 430 46 60 3 080 7 360 36 + 7 0 0+7 36 36 0 Solution : We have 3 3 +7 3 3 3 3 3( +7 3) 3 3 3 +7 3 3 3 3 36 3 and 0 3 3 0+ 3 3 7 36 0 7 360 We find the least common denominator (LCD) by forming the product of all the factors that occurinthesefactorizations, usingthehighestpowerofeachfactor. Thus, thelcdis 3 3 360. So 36 + 7 0 0 36 0 + 7 3 0 3 0 360 + 360 7 360 6. We have (7 6.3) 6.+9.9 (. 36+. 0. ) 6 69 4 0.6 6.+9.9 ( 30 + 4 ) 0.+9.9 4 69 6 69 48 4 69 0 0 7. We have ( ( )) 7 40 +0.6 0.00.7 4.7+7 + 6 + 3 3 33 4 30 7 ( 6 7 40 + 3 ) 00 0. 6 + 4 3 3 30 6 0 7 0 7 0 + 9 4 + 7 33 33 + 49 4 +7 4 7 4 6
Sets and Intervals A set is a collection of objects, and these objects are called the elements of the set. If S is a set, the notation a S means that a is an element of S, and b S means that b is not an element of S. For example, if Q represents the set of rational numbers, then Q but Q. Some sets can be described by listing their elements within braces. For instance, the set A that consists of all positive integers less than 7 can be written as A {,,3,4,,6} We could also write A in set-builder notation as A {x x is an integer and 0 < x < 7} which is read A is the set of all x such that x is an integer and 0 < x < 7. DEFINITION: If S and T are sets, then their union S T is the set that consists of all elements that are in S or T (or in both). The intersection of S and T is the set S T consisting of all elements that are in both S and T. The empty set, denoted by, is the set that contains no element. EXAMPLE: If S {,,3,4,}, T {4,,6,7}, and V {6,7,8}, find the sets S T, S T, and S V. Solution: We have S T {,,3,4,,6,7} S T {4,} S V EXAMPLE: If A {,,3,4,,6,7}, B {,4,6,8}, and C {7,8,9,0}, find the sets A B, A B, B C, B C, A C, A C, A B C, and A B C. 7
EXAMPLE: If A {,,3,4,,6,7}, B {,4,6,8}, and C {7,8,9,0}, find the sets A B, A B, B C, B C, A C, A C, A B C, and A B C. Solution: We have A B {,,3,4,,6,7,8} A B {,4,6} B C {,4,6,7,8,9,0} B C {8} A C {,,3,4,,6,7,8,9,0} A C {7} A B C {,,3,4,,6,7,8,9,0} A B C Certain sets of real numbers, called intervals, occur frequently in calculus and correspond geometrically to line segments. If a < b, then the open interval from a to b consists of all numbers between a and b and is denoted by the symbol (a,b). The closed interval from a to b includes the endpoints and is denoted [a, b]. Using set-builder notation, we can write (a,b) {x a < x < b} [a,b] {x a x b} The following table lists the possible types of intervals. EXAMPLE: Express each interval in terms of inequalities, and then graph the interval: 8
Absolute Value and Distance The absolute value of a number a, denoted by a, is the distance from a to 0 on the real number line. Distance is always positive or zero, so we have a 0 for every number a. Remembering that a is positive when a is negative, we have the following definition. (a) 3 3 (b) 3 ( 3) 3 (c) 0 0 (d) 3 π (3 π) π 3 9
Appendix THEOREM: is irrational. Proof: Assume to the contrary that is rational, that is p q wherepandq areintegersandq 0.Withoutlossofgeneralitywecanassumethatp and q have no common divisor >. Then p q q p () Since q is even, it follows that p is even. Then p is also even (in fact, if p is odd, then p is odd). This means that there exists k Z such that Substituting () into (), we get p k () q (k) q 4k q k Since k is even, it follows that q is even. Then q is also even. This is a contradiction. 0