Let S be the set of all functions from Z to Z, and consider the relation...

Let F = {A ⊆ Z : |A| < ∞} be the set of all finite...

Let F = {A ⊆ Z : |A| < ∞} be the set of all finite sets of integers. Let R be the relation on F defined by A R B if and only if |A| = |B|. (a) Prove or disprove: R is reflexive. (b) Prove or disprove: R is irreflexive. (c) Prove or disprove: R is symmetric. (d) Prove or disprove: R is antisymmetric. (e) Prove or disprove: R is transitive. (f) Is R an equivalence relation? Is...

Let A be the set of all integers, and let R be the relation "m divides...

Let A be the set of all integers, and let R be the relation "m divides n." Determine whether or not the given relation R, on the set A, is reflexive, symmetric, antisymmetric, or transitive.

Let A be the set of all real numbers, and let R be the relation "less...

Let A be the set of all real numbers, and let R be the relation "less than." Determine whether or not the given relation R, on the set A, is reflexive, symmetric, antisymmetric, or transitive.

Let A be the set of all lines in the plane. Let the relation R be...

Let A be the set of all lines in the plane. Let the relation R be defined as: “l​1​ R l​2​ ⬄ l​1​ intersects l​2​.” Determine whether S is reflexive, symmetric, or transitive. If the answer is “yes,” give a justification (full proof is not needed); if the answer is “no” you ​must give a counterexample.

Consider the following relation on the set Z: xRy ? x2 + y is even. For...

Consider the following relation on the set Z: xRy ? x2 + y is even. For each question below, if your answer is "yes", then prove it, if your answer is "no", then show a counterexample. (i) Is R reflexive? (ii) Is R symmetric? (iii) Is R antisymmetric? (iv) Is R transitive? (v) Is R an equivalence relation? If it is, then describe the equivalence classes of R. How many equivalence classes are there?

Let Z be the set of integers. Define ~ to be a relation on Z by...

Let Z be the set of integers. Define ~ to be a relation on Z by x~y if and only if |xy|=1. Show that ~ is symmetric and transitive, but is neither reflexvie nor antisymmetric.

6. Let S be a finite set and let P(S) denote the set of all subsets...

6. Let S be a finite set and let P(S) denote the set of all subsets of S. Define a relation on P(S) by declaring that two subsets A and B are related if A ⊆ B. (a) Is this relation reflexive? Explain your reasoning. (b) Is this relation symmetric? Explain your reasoning. (c) Is this relation transitive? Explain your reasoning.

Construct a binary relation R on a nonempty set A satisfying the given condition, justify your...

Construct a binary relation R on a nonempty set A satisfying the given condition, justify your solution. (a) R is an equivalence relation. (b) R is transitive, but not symmetric. (c) R is neither symmetric nor reflexive nor transitive. (d) (5 points) R is antisymmetric and symmetric.

Consider the following set S = {(a,b)|a,b ∈ Z,b 6= 0} where Z denotes the integers....

Consider the following set S = {(a,b)|a,b ∈ Z,b 6= 0} where Z denotes the integers. Show that the relation (a,b)R(c,d) ↔ ad = bc on S is an equivalence relation. Give the equivalence class [(1,2)]. What can an equivalence class be associated with?

Suppose we define the relation R on the set of all people by the rule "a...

Suppose we define the relation R on the set of all people by the rule "a R b if and only if a is Facebook friends with b." Is this relation reflexive?  Is is symmetric?   Is it transitive?   Is it an equivalence relation? Briefly but clearly justify your answers.