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8. If f is a bounded function defined on an interval I, then prove that sụp|f...
I need to answer 1b 2.5. Let f be a real valued function continuous on a...
I need to answer 1b
2.5. Let f be a real valued function continuous on a closed, bounded Theorem set S. Then there exist x1,X2 S such that f(x1) S f(x) s f(x2) for all x e S. Proor. We recall that if T E' is bounded and closed, then y, - inf T and sup T are points of T (Example 4, Section 1.4). Let T- fIS. By Theorem 2.4, T is closed and bounded. Take x, such that...
if A is a bounded set, then sup(A),inf(A) is in the closure of A. can you...
if A is a bounded set, then sup(A),inf(A) is in the
closure of A. can you prove this using Hein Borel theorem?
HiW If Ais a haudel et Can then supA), inA) E A as a that i fornr
Th 5. (14pt) A function defined on D C R is said to be somewhat continuous if for any e >1, (51) ...
th 5. (14pt) A function defined on D C R is said to be somewhat continuous if for any e >1, (51) Prove or find a counter example for the statement "a somewhat continuous func- (52) Let EC Rm, f: ER, and a e E. Prove or disprove that f is continuous at a there is a 6 0 such that whenever z,y D and la -vl <6, then f()-)e es tion is continuous." if and only if given any...
*5. A function f defined on an interval I = {x: a <x<b> is called increasing...
*5. A function f defined on an interval I = {x: a <x<b> is called increasing f(x) > f(x2) whenever xi > X2 where x1, x2 €1. Suppose that has the inter- mediate-value property: that is, for each number c between f(a) and f(b) there is an x, el such that f(x) = c. Show that a functionſ which is increasing and has the intermediate-value property must be continuous. This is from my real analysis textbook, We are establishing the...
Exercise 1.6.37.(i) Show that every function f :R - R of bounded variation is bounded, and that t...
Exercise 1.6.37.(i) Show that every function f :R - R of bounded variation is bounded, and that the limits limoo f(x) and lim f(x), are well-defined. (ii) Give a counterexample of a bounded, continuous, compactly supported function f that is not of bounded variation.
Exercise 1.6.37.(i) Show that every function f :R - R of bounded variation is bounded, and that the limits limoo f(x) and lim f(x), are well-defined. (ii) Give a counterexample of a bounded, continuous, compactly supported...
Question 1 1. [5 pts] Give a complete definition of lim f(x) = -oo if... 2....
Question 1
1. [5 pts] Give a complete definition of lim f(x) = -oo if... 2. [25 pts] Give an example of each of the following, or state one or more theorems which show that such an example is impossible: a. A countable collection of nonempty closed proper subsets of R whose union is open. b. A nonempty bounded subset of R with no cluster points. c. A convergent sequence with two convergent subsequences with distinct limits. d. A function...
(a) Suppose f is continuously differentiable on the closed and bounded interval I = [0, 1]....
(a) Suppose f is continuously differentiable on the closed and bounded interval I = [0, 1]. Show that f is uniformly continuous on I. (b) Suppose g is continuously differentiable on the open interval J = (0,1). Give and example of such a function which is NOT uniformly continuous on J, and prove your answer.
Problem 3 (ML inequality) Let F be a vector function defined on a curve C. Suppose...
Problem 3 (ML inequality) Let F be a vector function defined on a curve C. Suppose F is bounded on C, which means ||F|| <M for some finite number M > 0. Show that I F.dr < ML, where L is the length of the path C.
2. Let I be an interval and let f be a function which is differentiable on...
2. Let I be an interval and let f be a function which is differentiable on I. Prove that if f' is bounded on I then f is uniformly continuous on I. 3. Give an example to show that the converse of the result in the previous question is false, i.e., give an example of a function which is differentiable and uniformly continuous on an interval but whose derivative is not bounded. (Proofs for your assertions are necessary, unless they...
7. State Taylor's theorem for a function f(x, y) of two variables and prove it by using Taylor's theorem for a single variable function. 7. State Taylor's theorem for a function f(x,...
7. State Taylor's theorem for a function f(x, y) of two variables and prove it by using Taylor's theorem for a single variable function.
7. State Taylor's theorem for a function f(x, y) of two variables and prove it by using Taylor's theorem for a single variable function.
I need to answer 1b
2.5. Let f be a real valued function continuous on a closed, bounded Theorem set S. Then there exist x1,X2 S such that f(x1) S f(x) s f(x2) for all x e S. Proor. We recall that if T E' is bounded and closed, then y, - inf T and sup T are points of T (Example 4, Section 1.4). Let T- fIS. By Theorem 2.4, T is closed and bounded. Take x, such that...
if A is a bounded set, then sup(A),inf(A) is in the
closure of A. can you prove this using Hein Borel theorem?
HiW If Ais a haudel et Can then supA), inA) E A as a that i fornr
th 5. (14pt) A function defined on D C R is said to be somewhat continuous if for any e >1, (51) Prove or find a counter example for the statement "a somewhat continuous func- (52) Let EC Rm, f: ER, and a e E. Prove or disprove that f is continuous at a there is a 6 0 such that whenever z,y D and la -vl <6, then f()-)e es tion is continuous." if and only if given any...
*5. A function f defined on an interval I = {x: a <x<b> is called increasing f(x) > f(x2) whenever xi > X2 where x1, x2 €1. Suppose that has the inter- mediate-value property: that is, for each number c between f(a) and f(b) there is an x, el such that f(x) = c. Show that a functionſ which is increasing and has the intermediate-value property must be continuous. This is from my real analysis textbook, We are establishing the...
Exercise 1.6.37.(i) Show that every function f :R - R of bounded variation is bounded, and that the limits limoo f(x) and lim f(x), are well-defined. (ii) Give a counterexample of a bounded, continuous, compactly supported function f that is not of bounded variation.
Exercise 1.6.37.(i) Show that every function f :R - R of bounded variation is bounded, and that the limits limoo f(x) and lim f(x), are well-defined. (ii) Give a counterexample of a bounded, continuous, compactly supported...
Question 1
1. [5 pts] Give a complete definition of lim f(x) = -oo if... 2. [25 pts] Give an example of each of the following, or state one or more theorems which show that such an example is impossible: a. A countable collection of nonempty closed proper subsets of R whose union is open. b. A nonempty bounded subset of R with no cluster points. c. A convergent sequence with two convergent subsequences with distinct limits. d. A function...
(a) Suppose f is continuously differentiable on the closed and bounded interval I = [0, 1]. Show that f is uniformly continuous on I. (b) Suppose g is continuously differentiable on the open interval J = (0,1). Give and example of such a function which is NOT uniformly continuous on J, and prove your answer.
Problem 3 (ML inequality) Let F be a vector function defined on a curve C. Suppose F is bounded on C, which means ||F|| <M for some finite number M > 0. Show that I F.dr < ML, where L is the length of the path C.
2. Let I be an interval and let f be a function which is differentiable on I. Prove that if f' is bounded on I then f is uniformly continuous on I. 3. Give an example to show that the converse of the result in the previous question is false, i.e., give an example of a function which is differentiable and uniformly continuous on an interval but whose derivative is not bounded. (Proofs for your assertions are necessary, unless they...
7. State Taylor's theorem for a function f(x, y) of two variables and prove it by using Taylor's theorem for a single variable function.
7. State Taylor's theorem for a function f(x, y) of two variables and prove it by using Taylor's theorem for a single variable function.
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