Question

A ....... ............ on a set A is s subset of A A Select one: O a. NONE OF THESE O b. CARTESIAN PRODUCT C. CONTRADICTION d


Relations which are reflexive, symmetric, and transitive are called Select one: O a. partial ordering relations b. None of th
0 0
Add a comment Improve this question Transcribed image text
Answer #1

1)- A " Relation" on a set A is a subset of A × A.

Hence option e. Relation is right.

Because Relation is a set of ordered pairs.There need be no relationship between components of the ordered pairs.

For ex- suppose A = { 1,2,3} then a relation from A to A is - {(1,1),(2,2),(3,3)} which is clearly a subset of A × A = {(1,1),(1,2),(1,3),(2,1),(2,2),(2,3),(3,1),(3,2),(3,3)}.

2)- Relations which are Reflexive, Symmetric and Transitive are called " Equivalence Relations".

Hence Option e. Equivalence Relations is right.

Add a comment
Know the answer?
Add Answer to:
A ....... ............ on a set A is s subset of A A Select one: O...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • A topological ordering of G (V, E) is: O An irrefelexive, transitive, anti-symmetric binary relation on V such that E CR ● A reflexive, transitive, symmetric binary relation on V such that E gR O A t...

    A topological ordering of G (V, E) is: O An irrefelexive, transitive, anti-symmetric binary relation on V such that E CR ● A reflexive, transitive, symmetric binary relation on V such that E gR O A total ordering on V such that E CR. A partial ordering on V such that E C R A topological ordering of G (V, E) is: O An irrefelexive, transitive, anti-symmetric binary relation on V such that E CR ● A reflexive, transitive, symmetric...

  • QI. Let A-(-4-3-2-1,0,1,2,3,4]. R İs defined on A as follows: For all (m, n) E A,...

    QI. Let A-(-4-3-2-1,0,1,2,3,4]. R İs defined on A as follows: For all (m, n) E A, mRn㈠4](rn2_n2) Show that the relation R is an equivalence relation on the set A by drawing the graph of relation Find the distinct equivalence classes of R. Q2. Find examples of relations with the following properties a) Reflexive, but not symmetric and not transitive. b) Symmetric, but not reflexive and not transitive. c) Transitive, but not reflexive and not symmetric. d) Reflexive and symmetric,...

  • Question 8 4 pts A relation Rfrom a set A to a set Bis a subset...

    Question 8 4 pts A relation Rfrom a set A to a set Bis a subset of а. А х А b. Вх В с. Ах В d. B x A d. Question 9 4 pts A relation Ron a set A is an equivalence relation if either of the following is true: (a) Ris reflexive on A (b) Ris symmetric on A (c) Ris transitive on A. True False

  • QUESTION 10 The equality relationon any set S is: A total ordering and a function with an inverse. An equivalence relation and also function with an inverse. A function with an inverse, and an equiva...

    QUESTION 10 The equality relationon any set S is: A total ordering and a function with an inverse. An equivalence relation and also function with an inverse. A function with an inverse, and an equivalence relation with as single equivalence class equal to S An equivalence relation and also a total ordering QUESTION 11 A binary operation on a set S, takes any two elements a,b E S and produces another element c e S. Examples of binary operations include...

  • Suppose that we have a large software project divided into several files. Let F be the...

    Suppose that we have a large software project divided into several files. Let F be the set of files, and let R be the relation on F where fRg if g depends on f. That is, f must be compiled before g. Note that the dependency might not be direct — g might depend on f through some intermediary files h, j etc.. For the purposes of this question, assume that there is at least one file. a) Is R...

  • 9. Define R the binary relation on N x N to mean (a, b)R(c, d) iff...

    9. Define R the binary relation on N x N to mean (a, b)R(c, d) iff b|d and alc (a) R is symmetric but not reflexive. (b) R is transitive and symmetric but not reflexive (c) R is reflexive and transitive but not symmetric (d) None of the above 10. Let R be an equivalence relation on a nonempty and finite 9. Define R the binary relation on N x N to mean (a, b)R(c, d) iff b|d and alc...

  • discrete maths 2. (Lewis, Zar 14.7) Determine whether each of the following relations is transitive, symmetric,...

    discrete maths 2. (Lewis, Zar 14.7) Determine whether each of the following relations is transitive, symmetric, and reflexive and why: (a) The subset relation (b) The proper subset relation (c) The relation R on Z, where R(a, b) if and only if b is a multiple of a (d) The relation R on ordered pairs of integers, where R(<a,b>,<c,d >) if and only if ad-bc.

  • 4. Give the directed graph of a relation on the set ( x,y,z that is a)...

    4. Give the directed graph of a relation on the set ( x,y,z that is a) not reflexive, not symmetric, but transitive b) irreflexive, symmetric, and transitive c) neither reflexive, irreflexive, symmetric, antisymmetric, nor transitive d) a poset but not a total order e) a poset and a total order

  • Let X, be the set {x € Z|3 SXS 9} and relation M on Xz defined...

    Let X, be the set {x € Z|3 SXS 9} and relation M on Xz defined by: xMy – 31(x - y). (Note: Unless you are explaining “Why not,” explanations are not required.) a. Draw the directed graph of M. b. Is M reflexive? If not, why not? C. Is M symmetric? If not, why not? d. Is M antisymmetric? If not, why not? e. Is M transitive? If not, why not? f. Is M an equivalence relation, partial order...

  • probelms 9.1 9 Modular arithmetic Definition 9.1 Let S be a set. A relation R =...

    probelms 9.1 9 Modular arithmetic Definition 9.1 Let S be a set. A relation R = R(,y) on S is a statement about pairs (x,y) of elements of S. For r,y ES, I is related to y notation: Ry) if R(x,y) is true. A relation Ris: Reflexive if for any I ES, R. Symmetric if for any ry ES, Ry implies y Rr. Transitive if for any r.y.ES, Ry and yRimply R. An equivalence relation is a reflexive, symmetric and...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT