Let X,Y be sets. Prove that X \ (X \ Y)=X∩Y

Let X and Y be sets. Prove X −(X −Y ) ⊆ X ∩Y . (Hint:...

Let X and Y be sets. Prove X −(X −Y ) ⊆ X ∩Y . (Hint: Remember that s ∈ S − T means s ∈ S and s ∈/ T . Thus, s ∈/ S − T means s ∈/ S or s ∈ T .)

Let X = { x, y, z }. Let the list of open sets of X...

Let X = { x, y, z }. Let the list of open sets of X be Z1. Z1 = { {}, {x}, X }. Let Y = { a, b, c }. Let the list of open sets of Y be Z2. Z2 = { {}, {a, b}, Y }. Let f : X --> Y be defined as follows: f (x) = a, f (y) = b, f(z) = c Is f continuous? Prove or disprove using the...

Let X, Y and Z be sets. Let f : X → Y and g :...

Let X, Y and Z be sets. Let f : X → Y and g : Y → Z functions. (a) (3 Pts.) Show that if g ◦ f is an injective function, then f is an injective function. (b) (2 Pts.) Find examples of sets X, Y and Z and functions f : X → Y and g : Y → Z such that g ◦ f is injective but g is not injective. (c) (3 Pts.) Show that...

Prove that if X and Y are disjoint countably infinite sets then X ∪ Y is...

Prove that if X and Y are disjoint countably infinite sets then X ∪ Y is countably infinity (can you please show the bijection from N->XUY clearly)

Let A, B be sets and f: A -> B. For any subsets X,Y subset of...

Let A, B be sets and f: A -> B. For any subsets X,Y subset of A, X is a subset of Y iff f(x) is a subset of f(Y). Prove your answer. If the statement is false indicate an additional hypothesis the would make the statement true.

Assume that X and Y are finite sets. Prove the following statement: If there is a...

Assume that X and Y are finite sets. Prove the following statement: If there is a bijection f:X→Y then|X|=|Y|. Hint: Show that if f : X → Y is a surjection then |X| ≥ |Y| and if f : X → Y is an injection then |X| ≤ |Y |.

Let A and B be sets and let X be a subset of A. Let f:...

Let A and B be sets and let X be a subset of A. Let f: A→B be a bijection. Prove that f(A-X)=B-f(X).

8.4: Let f : X → Y and g : Y→ Z be maps. Prove that...

8.4: Let f : X → Y and g : Y→ Z be maps. Prove that if composition g o f is surjective then g is surjective. 8.5: Let f : X → Y and g : Y→ Z be bijections. Prove that if composition g o f is bijective then f is bijective. 8.6: Let f : X → Y and g : Y→ Z be maps. Prove that if composition g o f is bijective then f is...

Let X, Y ⊂ Z and x, y ∈ Z Let A = (X\{x}) ∪ {x}....

Let X, Y ⊂ Z and x, y ∈ Z Let A = (X\{x}) ∪ {x}. a) Prove or disprove: A ⊆ X b) Prove or disprove: X ⊆ A 4 c) Prove or disprove: P(X ∪ Y ) ⊆ P(X) ∪ P(Y ) ∪ P(X ∩ Y ) d) Prove or disprove: P(X) ∪ P(Y ) ∪ P(X ∩ Y ) ⊆ P(X ∪ Y )

Let X, Y ⊂ Z and x, y ∈ Z Let A = (X\{x}) ∪ {x}....

Let X, Y ⊂ Z and x, y ∈ Z Let A = (X\{x}) ∪ {x}. a) Prove or disprove: A ⊆ X b) Prove or disprove: X ⊆ A c) Prove or disprove: P(X ∪ Y ) ⊆ P(X) ∪ P(Y ) ∪ P(X ∩ Y ) d) Prove or disprove: P(X) ∪ P(Y ) ∪ P(X ∩ Y ) ⊆ P(X ∪ Y )