(a) R is ring:
(1)
Sum of two continuous functions on [0,1] is again a continuous function on [0,1]
(2) Scalar multiplication of continuous functions on [0,1] is again a continuous function on [0,1].
(3) There is identity map that is continuous on [0,1]
(4) Inverse of continuous function continuous functions on [0,1] is a continuous function on [0,1]
Since asociative and distributive property holds in R, holds in C[0,1].
Hence R is ring
is an ideal :
Let
Let
Ic is an ideal.
(b) is not an ideal since
Let
Then
is an ideal
Let
Let
Hence is an ideal .
C(10.1]) be the set of continuous functions f : lo. 11 → R 5) Let R from the interval [0, 1] to the real numbers. For a...
(7) Let R= {f [0,1] - R | f continuous} be the ring of all continuous functions from the interval [0,1] to the real numbers. (a) For cE [0, 1, prove that Me := {feR | f(c) = 0} is a maximal ideal of R. Hint: consider the evaluation map ec- (b) Show that if M is any maximal ideal of R then there exists a cE [0,1 such that M = Me. Hint: show that any maximal ideal M...
I do not need the two metrics to be proved (that they are a metric). Problem 2. Let C[0, 1] be the set of all continuous functions from [0, 1] to R. For any f, g є Cl0, 11 define - max f(x) - g(z) and di(f,g)-If(x) - g(x)d. a) Prove that for any n 2 1, one can find n points in C[O, 1 such that, in daup metric, the distance between any two points is equai to 1....
Problem 2. Let C[0, 1] be the set of all continuous functions from [0, 1] to R. For any f, g є Cl0, 11 define - max f(x) - g(z) and di(f,g)-If(x) - g(x)d. a) Prove that for any n 2 1, one can find n points in C[O, 1 such that, in daup metric, the distance between any two points is equai to 1. b) Can one find 100 points in C[0, 1] such that, in di metric, the...
33. Let C[0, 1] be the space of real-valued continuous functions on [0, 1] with inner product Kf.9) (x)g()d(r). 2 cos 2Tir and g.(r)-v2 sin 2mix for i 1.2,... Show that (1. fi.g. f2 92 Suppose that fi(r) is an orthonormal set.
problem1&2 thx! interval in R is a set IC R such that for all <y < z in R, if E I and z e I then Recall that an points yE I. We call an interval non-degenerate if it contains at least two (1) Let I be a nondegenerate interval in R, and suppose f: IR is continuous (a) Show that f[] is an interval in R. (b) Show that if I is closed and bounded, then so is...
B2. (a) Let I denote the interval 0,1 and let C denote the space of continuous functions I-R. Define dsup(f,g)-sup |f(t)-g(t) and di(f.g)f (t)- g(t)ldt (f,g E C) tEI (i) Prove that dsup is a metric on C (ii) Prove that di is a metric on C. (You may use any standard properties of continuous functions and integrals, provided you make your reasoning clear.) 6 i) Let 1 denote the constant function on I with value 1. Give an explicit...
Question 1: Let R be the set of real numbers and let 2R be the set of all subsets of the real numbers. Prove that 2 cannot be in one-to-one correspondence with R. Proof: Suppose 2 is in one-to-one correspondence with R. Then by definition of one- to-one correspondence there is a 1-to-1 and onto function B:R 2. Therefore, for each x in R, ?(x) is a function from R to {0, 1]. Moreover, since ? is onto, for every...
4. Let XC((0. 1) be the space of contimuous real valued functions on interval 0, 1 with metric di(f.g) S()-9(t0ldt. R defined by Show that the function p X PS)=max(f(t)|:t€ (0.1]} is not continuous at fo E X which is the identically zero function, folt) Hint: take e= 0 for all t e0, 1. 1 and for any d>0 find a function g EX with p(g)-1 and di(fo- 9) < 6.
Problem 5 Let f : [0,1] → R be continuous and assume f(zje (0, 1) for all x E (0,1). Let n E N with n 22. Show that there is eractly one solution in (0,1) for the equation 7L IC nx+f" (t) dt-n-f(t) dt.
complex analysis Let f(z) be continuous on S where for some real numbers 0< a < b. Define max(Re(z)Im(z and suppose f(z) dz = 0 S, for all r E (a, b). Prove or disprove that f(z) is holomorphic on S.