COUNTING TECHNIQUES. Prepared by Engr. JP Timola Reference: Discrete Math by Kenneth H. Rosen
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1 COUNTING TECHNIQUES Prepared by Engr. JP Timola Reference: Discrete Math by Kenneth H. Rosen
2 COMBINATORICS the study of arrangements of objects, is an important part of discrete mathematics.
3 Counting Introduction Suppose that a password on a computer system consists of six, seven, or eight characters. Each of these characters must be a digit or a letter of the alphabet. Each password must contain at least one digit. How many such passwords are there?
4 Basic Counting Principles Product Rule Suppose that a procedure can be broken down into a sequence of two tasks. If there are n 1 ways to do the first task and for each of these ways of doing the first task, there are n 2 ways to do the second task, then there are n 1 n 2 ways to do the procedure.
5 Example A new company with just two employees, Sanchez and Patel, rents a floor of a building with12 offices. How many ways are there to assign different offices to these two employees?
6 Example The chairs of an auditorium are to be labeled with an uppercase English letter followed by a positive integer not exceeding 100. What is the largest number of chairs that can be labeled differently?
7 Example There are 32 microcomputers in a computer center. Each microcomputer has 24 ports. How many different ports to a microcomputer in the center are there?
8 Basic Counting Principles Sum Rule If a task can be done either in one of n 1 ways or in one of n 2 ways, where none of the set of n 1 ways is the same as any of the set of n 2 ways, then there are n 1 + n 2 ways to do the task.
9 Example Suppose that either a member of the mathematics faculty or a student who is a mathematics major is chosen as a representative to a university committee. How many different choices are there for this representative if there are 37 members of the mathematics faculty and 83 mathematics majors and no one is both a faculty member and a student?
10 Example A student can choose a computer project from one of three lists. The three lists contain 23, 15, and 19 possible projects, respectively. No project is on more than one list. How many possible projects are there to choose from?
11 Inclusion Exclusion for Two Sets Suppose that a task can be done in one of two ways, but some of the ways to do it are common to both ways. In this situation, we cannot use the sum rule to count the number of ways to do the task. If we add the number of ways to do the tasks in these two ways, we get an overcount of the total number of ways to do it, because the ways to do the task that are common to the two ways are counted twice. To correctly count the number of ways to do the two tasks, we must subtract the number of ways that are counted twice.
12 THE SUBTRACTION RULE If a task can be done in either n1 ways or n2 ways, then the number of ways to do the task is n 1 + n 2 minus the number of ways to do the task that are common to the two different ways.
13 THE DIVISION RULE There are n/d ways to do a task if it can be done using a procedure that can be carried out in n ways, and for every way w, exactly d of the n ways correspond to way w.
14 Example How many different ways are there to seat four people around a circular table, where two seatings are considered the same when each person has the same left neighbor and the same right neighbor?
15 Tree Diagrams A tree consists of a root, a number of branches leaving the root, and possible additional branches leaving the endpoints of other branches. To use trees in counting, we use a branch to represent each possible choice. We represent the possible outcomes by the leaves, which are the endpoints of branches not having other branches starting at them.
16 Example A playoff between two teams consists of at most five games. The first team that wins three games wins the playoff. In how many different ways can the playoff occur?
17 The Pigeonhole Principle If k is a positive integer and k + 1 or more objects are placed into k boxes, then there is at least one box containing two or more of the objects.
18 Example Suppose that a flock of 13 pigeons flies into a set of 12 pigeonholes to roost.
19 The Pigeonhole Principle
20 The Pigeonhole Principle
21 COROLLARY 1 A function f from a set with k + 1 or more elements to a set with k elements is not one-to-one.
22 EXAMPLE Among any group of 367 people, there must be at least two with the same birthday, because there are only 366 possible birthdays.
23 EXAMPLE In any group of 27 English words, there must be at least two that begin with the same letter, because there are 26 letters in the English alphabet.
24 EXAMPLE How many students must be in a class to guarantee that at least two students receive the same score on the final exam, if the exam is graded on a scale from 0 to 100 points?
25 THE GENERALIZED PIGEONHOLE PRINCIPLE If N objects are placed into k boxes, then there is at least one box containing at least N / k objects.
26 Application When we have N objects, the generalized pigeonhole principle tells us there must be at least r objects in one of the boxes as long as N/k r. The smallest integer N with N/k > r 1, namely, N = k(r 1) + 1, is the smallest integer satisfying the inequality N/k r.
27 Example
28 Example What is the minimum number of students required in a discrete mathematics class to be sure that at least six will receive the same grade, if there are five possible grades, A, B, C, D, and F?
29 Example a) How many cards must be selected from a standard deck of 52 cards to guarantee that at least three cards of the same suit are chosen?
30 Example b) How many must be selected to guarantee that at least three hearts are selected?
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Lenarz Math 102 Practice Exam # 3 Name: 1. A 10-sided die is rolled 100 times with the following results:
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