Let R = (1 2 3 ) and F = (1 2 ). Here R and...

Let f : R → R be a function satisfying |f(x) − f(y)| ≤ 3|x −...

Let f : R → R be a function satisfying |f(x) − f(y)| ≤ 3|x − y|^{1/2} for all x, y ∈ R. Apply E − δ definition to show that f is uniformly continuous in R.

Let x = [1, 1]T , y = [1, 1]T ∈ R 2 and let f...

Let x = [1, 1]T , y = [1, 1]T ∈ R 2 and let f : R 2 =⇒ R 2 with f(z) =z1.x + z2.y for any z = [z1, z2] T ∈ R 2 . Further, z = g(r) = [r 2 , r3 ] where r ∈ R . Show how chain rule is applied here giving major steps of the calculation, write down the expression for ∂f ∂r , and also evaluate ∂f/ ∂r at...

(IMT 1.1.6).Let E,F⊆R^d be Jordan measurable sets. 1. (Monotonicity) Show that if E⊆F, then m(E)≤m(F). 2....

(IMT 1.1.6).Let E,F⊆R^d be Jordan measurable sets. 1. (Monotonicity) Show that if E⊆F, then m(E)≤m(F). 2. (Finite subadditivity) Show that m(E∪F)≤m(E) +m(F). 3. (Finite additivity) Show that if E and Fare disjoint, then m(E∪F) =m(E) +m(F).

1. Let f : R2 → R2, f(x,y) = ?g(x,y),h(x,y)? where g,h : R2 → R....

1. Let f : R2 → R2, f(x,y) = ?g(x,y),h(x,y)? where g,h : R2 → R. Show that f is continuous at p0 ⇐⇒ both g,h are continuous at p0

The Fibonacci series is given by; F0=0, F1=1,F2=1, F3=2,F4=3,…F(i)=F(i-1)+F(i-2) Given that r^2=r+1. Show that F(i) ≥...

The Fibonacci series is given by; F0=0, F1=1,F2=1, F3=2,F4=3,…F(i)=F(i-1)+F(i-2) Given that r^2=r+1. Show that F(i) ≥ r^{n-2}, where F(i) is the i th element in the Fibonacci sequence

Let f : R \ {1} → R be given by f(x) = 1 1 −...

Let f : R \ {1} → R be given by f(x) = 1 1 − x . (a) Prove by induction that f (n) (x) = n! (1 − x) n for all n ∈ N. Note: f (n) (x) denotes the n th derivative of f. You may use the usual differentiation rules without further proof. (b) Compute the Taylor series of f about x = 0. (You must provide justification by relating this specific Taylor series to...

Let X be the set {1, 2, 3}. a)For each function f in the set of...

Let X be the set {1, 2, 3}. a)For each function f in the set of functions from X to X, consider the relation that is the symmetric closure of the function f'. Let us call the set of these symmetric closures Y. List at least two elements of Y. b) Suppose R is some partial order on X. What is the smallest possible cardinality R could have? What is the largest?

Let f(x, y) = x^3 − 4xy^2 , x, y ∈ R. Use the definition of...

Let f(x, y) = x^3 − 4xy^2 , x, y ∈ R. Use the definition of differentiability to show that f(x, y) is differentiable at (2, 1).

Let f(x) be a polynomial and let r be a root of f(x). If x_1 is...

Let f(x) be a polynomial and let r be a root of f(x). If x_1 is sufficiently close to r then x_2 = i(x_1) is closer, x_3 = i(x_2) is closer still, etc. Here i(x) = x - f(x)/f'(x) is what we called the improvement function a. Let f(x)=x^2-10. Compute i(x) in simplified form (i.e. everything in one big fraction involving x). Let r = sqrt(10) and x_1=3. Show a hand computation of x_2 and then x_3, expressing both your...

let let T : R^3 --> R^2 be a linear transformation defined by T ( x,...

let let T : R^3 --> R^2 be a linear transformation defined by T ( x, y , z) = ( x-2y -z , 2x + 4y - 2z) a give an example of two elements in K ev( T ) and show that these sum i also an element of K er( T)