BT0069, Discrete Mathematics

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ASSIGNMENT

PROGRAM BSc IT
SEMESTER SECOND
SUBJECT CODE & NAME BT0069, Discrete Mathematics
CREDIT 4
BK ID B0953
MAX.MARKS 60

 

Q.1 If U = {a,b,c,d,e}, A ={a,c,d}, B = {d,e}, C = {b,c,e}

Evaluate the following:

(a) A’ ´ (B-C)

(b)(AÈB)’´(BÇC)

(c)(A-B)´(B-C)

(d)(BÈC)’´A

(e)(B-A)´C’

 

Answer:

(a) A’ ´ (B-C)

A’ = set of those elements which belong to U but not to A.

A’ = (b, e)

(B-C) = (d)

A’ ´ (B-C) = (b,e)´(d)

 

(b)(AÈB)’´(BÇC)

(AÈB) = (a, c, d, e)

(AÇB)’ = (b)

 

 

 

 

2 (i) State the principle of inclusion and exclusion.

 

(ii) How many arrangements of the digits 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 contain at least one of the patterns 289, 234 or 487? 4+6 10

 

Answer:

  1. Principle of Inclusion and Exclusion

For any two sets P and Q, we have;

  1. i) |P Q| ≤ |P| + |Q| where |P| is the number of elements in P, and |Q| is the number elements in Q.
  2. ii) |P Q| ≤

 

 

 

 

3 If G is a group, then

  1. i) The identity element of G is unique.
  2. ii) Every element in G has unique inverse in G.

iii)

For any a єG, we have (a-1)-1 = a.

 
  1. iv) For all a, b є G, we have (a.b)-1 = b-1.a-1. 4x 2.5 10

Answer:  i) Let ebe two identity elements in G. Since is the identity, we have e.ff. Since is the identity, we have e.e. Therefore, e.f. Hence the identity element is unique.

ii)Let be in and a1, a2 are

 

4 (i) Define valid argument

(ii) Show that ~(P  ^Q) follows from ~ P ^ ~Q. 5+5= 10

Answer: i)

Definition

Any conclusion, which is arrived at by following the rules is called a valid conclusion and argument is called a valid argument.

  1. ii) Assume ~(~(P ÙQ)) as an additional premise. Then,

 

 

5 (i) Construct a grammar for the language.

 

 ‘L⁼{x/ xє{ ab} the number of as in x is a multiple of 3.

 

(ii)Find the highest type number that can be applied to the following productions:

  1. S→ A0, A → 1 І 2 І B0, B → 012.
  2. S → ASB І b, A → bA І c ,
  3. S → bS І bc. 5+5 10

Answer: i)

Let T = {a, b} and N = {S, A, B},

is a starting symbol.

The set of productions: F

 

 

 

 

6 (i) Define tree with example

(ii) Any connected graph with ‘n’ vertices and n -1 edges is a tree. 5+5 10

Answer: i)

Definition

A connected graph without circuits is called a tree.

Example

Consider the two trees G1 = (V, E1) and G2 = (V, E2) where V = {a, b, c, d, e, f, g, h, i, j}

E1 = {{a, c}, {b, c}, {c, d}, {c, e}, {e, g

 

ii)

We prove this theorem by induction on the number vertices n.

If n = 1, then G contains only one vertex and no edge.

So the number of edges in G is n -1 = 1 – 1 = 0.

Suppose the induction hypothesis that the statement is true for all trees with less than „n‟ vertices. Now let us consider a tree with „n‟ vertices.

Let „ek‟ be any edge in T whose end vertices are vi and vj.

Since T is a tree, by Theorem 12.3.1,

 

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