Let D = E = {−2, 0, 2, 3}. Write negations for each of the following...

Let D = E = {−2, 0, 2, 3}. Write negations for each of the following...

Let D = E = {−2, 0, 2, 3}. Write negations for each of the following statements and determine which is true, the given statement or its negation. Explain your answer (i) ∃x ∈ D such that ∀y ∈ E, x + y = y. (ii) ∀x ∈ D, ∃y ∈ E such that xy ≥ y.

Write the contrapositive statements to each of the following.  Then prove each of them by proving their respective contrapositives. ...

Write the contrapositive statements to each of the following.  Then prove each of them by proving their respective contrapositives.  In both statements assume x and y are integers. a. If  the product xy is even, then at least one of the two must be even. b. If the product xy  is odd, then both x and y must be odd. 3. Write the converse the following statement.  Then prove or disprove that converse depending on whether it is true or not.  Assume x...

For each of the following statements: • Rewrite the symbolic sentence in words, • Determine if...

For each of the following statements: • Rewrite the symbolic sentence in words, • Determine if the statement is true or false and justify your answer,• Negate the statement (you may write the negation symbolically). √ (a) ∀x∈R, x2 =x. (b) ∃y∈R,∀x∈R,xy=0. (c) ∃x ∈ R, ∀y ∈ R, x2 + y2 > 9.

1. In this problem, the domain of x is integers. For each of the statements, indicate...

1. In this problem, the domain of x is integers. For each of the statements, indicate whether it is TRUE or FALSE then write its negation and simplify it to the point that no ¬ symbol occurs in any of the statements (you may, however, use binary symbols such as ’̸=’ and <). i. ∀x(x+ 2 ≠ x+3) ii. ∃x(2x = 3x) iii. ∃x(x^2 = x) iv. ∀x(x^2 > 0) v. ∃x(x^2 > 0) 2. Let A = {7,11,15}, B...

(1) Determine whether the propositions p → (q ∨ ¬r) and (p ∧ ¬q) → ¬r...

(1) Determine whether the propositions p → (q ∨ ¬r) and (p ∧ ¬q) → ¬r are logically equivalent using either a truth table or laws of logic. (2) Let A, B and C be sets. If a is the proposition “x ∈ A”, b is the proposition “x ∈ B” and c is the proposition “x ∈ C”, write down a proposition involving a, b and c that is logically equivalentto“x∈A∪(B−C)”. (3) Consider the statement ∀x∃y¬P(x,y). Write down a...

2. Which of the following is a negation for ¡°All dogs are loyal¡±? More than one...

2. Which of the following is a negation for ¡°All dogs are loyal¡±? More than one answer may be correct. a. All dogs are disloyal. b. No dogs are loyal. c. Some dogs are disloyal. d. Some dogs are loyal. e. There is a disloyal animal that is not a dog. f. There is a dog that is disloyal. g. No animals that are not dogs are loyal. h. Some animals that are not dogs are loyal. 3. Write a...

write the following sentences as quantified logical statements, using the universal and existential quantifiers, and defining...

write the following sentences as quantified logical statements, using the universal and existential quantifiers, and defining predicates as needed. Second, write the negations of each of these statements in the same way. Finally, choose one of these statements to prove. If it is true, prove it, and if it is false, prove its negation. Your proof need not use symbols, but can be a simple explanation in plain English. 1. If m and n are positive integers and mn is...

(a) Let the statement, ∀x∈R,∃y∈R G(x,y), be true for predicate G(x,y). For each of the following...

(a) Let the statement, ∀x∈R,∃y∈R G(x,y), be true for predicate G(x,y). For each of the following statements, decide if the statement is certainly true, certainly false,or possibly true, and justify your solution. 1 (i) G(3,4) (ii) ∀x∈RG(x,3) (iii) ∃y G(3,y) (iv) ∀y¬G(3,y)(v)∃x G(x,4)

Given a random variable X has the following pmf: X -1 0 1 P[X] 0.25 0.5...

Given a random variable X has the following pmf: X -1 0 1 P[X] 0.25 0.5 0.25 Define Y = X2 & W= Y+2. Which one of the following statements is not true? A) V[Y] = 0.25. B) E[XY] = 0. C) E[X3] = 0. D) E[X+2] = 2. E) E[Y+2] = 2.5. F) E[W+2] = 4.5. G) V[X+2] = 0.5. H) V[W+2] = 0.25. I) P[W=1] = 0.5 J) X and W are not independent.

Given a random variable X has the following pmf: X -1 0 1 P[X] 0.25 0.5...

Given a random variable X has the following pmf: X -1 0 1 P[X] 0.25 0.5 0.25 Define Y = X2 & W= Y+2. Which one of the following statements is not true? A) V[Y] = 0.25. B) E[XY] = 0. C) E[X3] = 0. D) E[X+2] = 2. E) E[Y+2] = 2.5. F) E[W+2] = 4.5. G) V[X+2] = 0.5. H) V[W+2] = 0.25. I) P[W=1] = 0.5 J) X and W are not independent.