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2' Combinatorial Methods

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P(A)=N(A)/N(S) So we study combinatorial analysis here, which deals with ... Ex 2.19 In Maryland's lottery, player pick 6 integers between 1 and 49, order of ... – PowerPoint PPT presentation

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Title: 2' Combinatorial Methods


1
2. Combinatorial Methods
2
2.1 Introduction
  • If the sample space is finite and furthermore
    sample points are all equally likely, then
  • P(A)N(A)/N(S)
  • So we study combinatorial analysis here,
  • which deals with methods of counting.

3
2.2 Counting principle
  • Ex 2.1 How many outcomes are there if we throw 5
    dice?
  • Ex 2.2 In tossing 4 fair dice,
  • P(at least one 3 among these 4
    dice)?

4
  • Ex 2.3 Virginia wants to give her son, Brian, 14
    different baseball cards within a 7-day period.
    If Virginia gives Brian cards no more than once a
    day, in how many way can this be done?
  • Ex 2.6 (Standard Birthday Problem)
  • P(at least two among n people have the same
    Bday)?

5
Counting principle
  • Thm 2.3 A set with n elements has 2n subsets.
  • Ex 2.9 Mark has 4. He decides to bet 1 on the
    flip of a fair coin 4 times. What is the
    probability that (a) he breaks even (b) he wins
    money?(use tree diagram)

6
2.3 Permutations
  • Ex 2.10 3 people, Brown, Smith, and Jones, must
    be scheduled for job interviews. In how many
    different orders can this be done?

7
  • Ex 2.11 2 anthropology, 4 computer science, 3
    statistics, 3 biology, and 5 music books are put
    on a bookshelf with a random arrangement. What
    is the probability that the books of the same
    subject are together?

8
Permutations
  • Ex 2.12 If 5 boys and 5 girls sit in a row in a
    random order,
  • P(no two children of the same
    sex sit together)?

9
Permutations
  • Thm 2.4 The number of distinguishable
    permutations of n objects of k different types,
    where n1 are alike, n2 are alike, , nk are alike
    and nn1n2nk is

10
Permutations
  • Ex 2.13 How many different 10-letter codes can be
    made using 3 as, 4 bs, and 3 cs?
  • Ex 2.14 In how many ways can we paint 11 offices
    so that 4 of them will be painted green, 3
    yellow, 2 white, and the remaining 2 pink?

11
Permutations
  • Ex 2.15 A fair coin is flipped 10 times.
    P(exactly 3 heads)?

12
2.4 Combinations
  • Ex 2.16 In how many ways can 2 math and 3 biology
    books be selected from 8 math and 6 biology
    books?

13
Combinations
  • Ex 2.17 45 instructors were selected randomly to
    ask whether they are happy with their teaching
    loads. The response of 32 were negative. If
    Drs. Smith, Brown, and Jones were among those
    questioned. P(all 3 gave negative responses)?

14
Combinations
  • Ex 2.18 In a small town, 11 of the 25
    schoolteachers are against abortion, 8 are for
    abortion, and the rest are indifferent. A random
    sample of 5 schoolteachers is selected for an
    interview. (a)P(all 5 are for abortion)?
    (b)P(all 5 have the same opinion)?

15
Combinations
  • Ex 2.19 In Marylands lottery, player pick 6
    integers between 1 and 49, order of selection
    being irrelevant.
  • P(grand prize)? P(2nd prize)? P(3rd
    prize)?

16
Combinations
  • Ex 2.20 7 cards are drawn from 52 without
    replacement.
  • P(at least one of the cards is a king)?
  • Ex 2.21 5 cards are drawn from 52. P(full
    house)?

17
Combinations
  • Ex 2.22 A professor wrote n letters and sealed
    them in envelopes. P(at least one letter was
    addressed correctly)?
  • Hint Let Ei be the event that ith letter
    is addressed correctly. Compute P(E1UUEn) by
    inclusion-exclusion principle.

18
Combinations
  • Thm 2.5 (Binomial expansion)
  • Ex 2.23 What is the coefficient of x2y3 in the
    expansion of (2x3y)5?

19
Combinations
  • Ex 2.24 Evaluate the sum

20
Combinations
  • Ex 2.25 Evaluate the sum

21
Combinations
  • Ex 2.26 Prove that

22
Combinations
  • Ex 2.27 Prove the inclusion-exclusion principle.

23
Combinations
  • Ex 2.26 Distribute n distinguishable balls into k
    distinguishable cells so that n1 balls are
    distributed into the first cell, n2 balls into
    the second cell, , nk balls into the kth cell,
    where n1n2nkn. How many possible ways?
  • Sol

24
Combinations
  • Thm 2.6 (Multinomial expansion).

25
2.5 Stirlings formula
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