Rewrite the statement “a real number x is not the limit of a sequence of real...

Let A be a set and x a number. Show that x is a limit-point of...

Let A be a set and x a number. Show that x is a limit-point of A if and only if there exists a sequence x1 , x2 , . . . of distinct points in A that converges to x.

Define a Q-sequence recursively as follows. B.   x, 4 − x is a Q-sequence for any...

Define a Q-sequence recursively as follows. B.   x, 4 − x is a Q-sequence for any real number x. R.   If x1, x2,   , xj and y1, y2,   , yk are Q-sequences, so is     x1 − 1, x2,   , xj, y1, y2,   , yk − 3. Use structural induction (i.e., induction on the recursive definition) to prove that the sum of the numbers in any Q-sequence is 4. Base Case: Any Q-sequence formed by the base case of the definition has sum x +...

Consider Statements A and B below: A: A real number L is a limit of a...

Consider Statements A and B below: A: A real number L is a limit of a sequence if and only if for any ε− strip centered at L, infinitely many points on the graph of the sequence are inside the ε−strip. B: A real number L is a limit of a sequence if and only if for any ε− strip centered at L, only finitely many points on the graph of the sequence are outside the ε−strip. Evaluate the following...

either prove that it’s true by explicitly using limit laws, or give examples of functions that...

either prove that it’s true by explicitly using limit laws, or give examples of functions that contradict the statement a) If limx→0 [f(x)g(x)] exists as a real number, then both limx→0 f(x) and limx→0 g(x) must exist as real numbers b) If both limx→0 [f(x) − g(x)] and limx→0 f(x) exist as real numbers, then limx→0 g(x) must exist as a real number

Let <Xn> be a cauchy sequence of real numbers. Prove that <Xn> has a limit.

Let <Xn> be a cauchy sequence of real numbers. Prove that <Xn> has a limit.

Let x1, x2, x3 be real numbers. The mean, x of these three numbers is defined...

Let x1, x2, x3 be real numbers. The mean, x of these three numbers is defined to be x = (x1 + x2 + x3)/3 . Prove that there exists xi with 1 ≤ i ≤ 3 such that xi ≤ x.

For a given real number x , there is a natural number n which is larger...

For a given real number x , there is a natural number n which is larger than x . True False The supremum of the set of negative integers is 0. True False The supremum of a bounded set of rational numbers is rational. True False The supremum of a bounded set of irrational numbers is irrational. True False Every rational number is the supremum of a bounded set of irrational numbers. True False Every bounded sequence is a Cauchy...

Discreet Math: Prove or disprove each statement a) For any real number x, the floor of...

Discreet Math: Prove or disprove each statement a) For any real number x, the floor of 2x = 2 the floor of x b) For any real number x, the floor of the ceiling of x = the ceiling of x c) For any real numbers x and y, the ceiling of x and the ceiling of y = the ceiling of xy

Consider the following two assertions about x. Assume x is a specific but unknown real number....

Consider the following two assertions about x. Assume x is a specific but unknown real number. a. x< 2 or it is false that 1 <x< 3. b. x≤ 1 or either x< 2 or x≥ 3. Define statement letters for each of the individual statements (e.g., “x< 2” is a statement). If the same statement occurs more than once, use the same statement letter for all occurrences. Using those statement letters, rewrite assertions a and b as two logical...

Prove: If x is a sequence of real numbers that converges to L, then any subsequence...

Prove: If x is a sequence of real numbers that converges to L, then any subsequence of x converges to L.