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Introduction to Discrete Mathematics Lecture 1: Sep 6 AB C a = qb+r gcd(a,b) = gcd(b,r)

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Presentation on theme: "Introduction to Discrete Mathematics Lecture 1: Sep 6 AB C a = qb+r gcd(a,b) = gcd(b,r)"— Presentation transcript:

1 Introduction to Discrete Mathematics Lecture 1: Sep 6 AB C a = qb+r gcd(a,b) = gcd(b,r)

2 Checker x=0 Start with any configuration with all circles on or below the x-axis.

3 Checker x=0 Move: jump through your adjacent neighbour, but then your neighbour will disappear.

4 Checker x=0 Move: jump through your adjacent neighbour, but then your neighbour will disappear.

5 Checker x=0 Goal: Find an initial configuration with least number of circles to jump up to level k.

6 K=1 x=0 2 circles to reach level 1.

7 K=2 x=0

8 K=2 x=0 4 circles to reach level 2. Now we have reduced to the k=1 configuration, but one level higher.

9 K=3 x=0 This is the configuration for k=2, so jump two level higher.

10 K=3 x=0 8 circles to reach level 3.

11 K=4 x=0

12 K=4 x=0

13 K=4 x=0

14 K=4 x=0

15 K=4 x=0 Now we have reduced to the k=3 configuration, but one level higher 20 circles (not 16) to reach level 4!

16 K=5? a.39 or below b.40-50 circles c.51-70 circles d.71- 100 circles e.101 – 1000 circles f.1001 or above It turns out that it is impossible to move to level 5, and there is a very interesting mathematical proof of it.

17 Topic 4: Graph Theory How to color a map? How to send data efficiently? How to schedule exams?

18 Objectives of This Course To learn basic mathematical concepts, e.g. sets, functions, graphs To be familiar with formal mathematical reasoning, e.g. logic, proofs To improve problem solving skills To see the connections between discrete mathematics and computer science

19  Introduction to logic  Motivations  Basic Definitions  Logic formula

20 Familiar? Obvious? c b a Pythagorean theorem

21 c b a (i) a c  c square, and then (ii) an a  a & a b  b square Good Proof b-a We will show that these five pieces can be rearranged into: b-a And then we can conclude that

22 c c c a b c b-ab-a Good Proof The five pieces can be rearranged into: (i) a c  c square

23 c b a b-a Good Proof How to rearrange them into an axa square and a bxb square?

24 b a a a b-ab-a 74 proofs in http://www.cut-the-knot.org/pythagoras/index.shtml b Good Proof b

25 Bad Proof

26

27 Mathematical Proof To prove mathematical theorems, we need a more rigorous system. The standard procedure for proving mathematical theorems is invented by Euclid in 300BC. First he started with five axioms (the truth of these statements are taken for granted). Then he uses logic to deduce the truth of other statements. 1.It is possible to draw a straight line from any point to any other point.straight line 2.It is possible to produce a finite straight line continuously in a straight line.finite 3.It is possible to describe a circle with any center and any radius.circle 4.It is true that all right angles are equal to one another.right angles 5.("Parallel postulate") It is true that, if a straight line falling on two straight lines make the interior angles on the same side less than two right angles,Parallel postulate interior angles the two straight lines, if produced indefinitely, intersect on that side on which are the angles less than the two right angles.intersect angles

28 Statement (Proposition) A Statement is a sentence that is either True or False Examples: Non-examples:x+y>0 x 2 +y 2 =z 2 True False 2 + 2 = 4 3 x 3 = 8 787009911 is a prime They are true for some values of x and y but are false for some other values of x and y.

29 Logic Operators F F F T P Q FF TF FT TT QP F T T T FF TF FT TT QP ~p is true if p is false

30 Compound Statement p = “it is hot” q = “it is sunny” It is hot and sunny It is not hot but sunny It is neither hot nor sunny

31 Exclusive-Or coffee “or” tea  exclusive-or How to construct a compound statement for exclusive-or? pqp  q TTF TFT FTT FFF Idea 1: Look at the true rows Want the formula to be true exactly when the input belongs to a “true” row. The input is the second row exactly if this sub-formula is satisfied And the formula is true exactly when the input is the second row or the third row.

32 Exclusive-Or coffee “or” tea  exclusive-or How to construct a compound statement for exclusive-or? pqp  q TTF TFT FTT FFF Idea 2: Look at the false rows Want the formula to be true exactly when the input does not belong to a “false” row. The input is the first row exactly if this sub-formula is satisfied And the formula is true exactly when the input is not in the 1 st row and the 4 th row.

33 Logical Equivalence pq TTFTFF TFTTTT FTTTTT FFFFTF Logical equivalence: Two statements have the same truth table Idea 3: Guess and check As you see, there are many different ways to write the same logical formula. One can always use a truth table to check whether two statements are equivalent.

34 Writing Logical Formula for a Truth Table Digital logic: Given a digital circuit, we can construct the truth table. Now, suppose we are given only the truth table (i.e. the specification), how can we construct a circuit (i.e. formula) that has the same function?

35 Writing Logical Formula for a Truth Table pqroutput TTTF TTFT TFTT TFFF FTTT FTFT FFTT FFFF Use idea 1 or idea 2. Idea 1: Look at the true rows and take the “or”. The formula is true exactly when the input is one of the true rows.

36 Writing Logical Formula for a Truth Table Idea 2: Look at the false rows, negate and take the “and”. The formula is true exactly when the input is not one of the false row. pqroutput TTTF TTFT TFTT TFFF FTTT FTFT FFTT FFFF

37 DeMorgan’s Laws Logical equivalence: Two statements have the same truth table Statement: Tom is in the football team and the basketball team. Negation: Tom is not in the football team or not in the basketball team. Statement: The number 783477841 is divisible by 7 or 11. Negation: The number 783477841 is not divisible by 7 and not divisible by 11. De Morgan’s Law

38 DeMorgan’s Laws Logical equivalence: Two statements have the same truth table TTFF TFTT FTTT FFTT De Morgan’s Law

39 Simplifying Statement Practice a lot… DeMorgan Distributive law

40 Tautology, Contradiction A tautology is a statement that is always true. A contradiction is a statement that is always false. (negation of a tautology) In general it is “difficult” to tell whether a statement is a contradiction. It is one of the most important problems in CS – the satisfiability problem. How this is a negation of the first tautology?

41 Quick Summary Key points to know. 1.Write a logical formula from a truth table. 2.Check logical equivalence of two logical formulas. 3.DeMorgan’s rule and other simple logical rules (e.g. distributive). 4.Use simple logical rules to simplify a logical formula.

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