Show that a norm on a vector space X is a sub linear functional on X.

Suppose X is a normed linear space with a norm || · ||. Show X is...

Suppose X is a normed linear space with a norm || · ||. Show X is a metric space.

Show that the Frobenius norm is indeed a norm on the linear space of matrices.

Show that the Frobenius norm is indeed a norm on the linear space of matrices.

Let X be a normed linear space. Let X* be its dual space with the usual...

Let X be a normed linear space. Let X* be its dual space with the usual dual norm ||T|| = sup{ |T(x)| / ||x|| : x not equal to 0}. Show that X* is always complete. Hint: If Tn is a Cauchy sequence in X*, show that i) Tn(x) converges for each fixed x in X, ii) the resulting limits define a bounded linear functional T on X, and iii) the sequences Tn converges to T in the norm of...

Show that if a topological space X has a countable sub-base, then X is second countable

Show that if a topological space X has a countable sub-base, then X is second countable

Linear Algebra: Given a nonzero vector x1 in X, show that there is a linear function...

Linear Algebra: Given a nonzero vector x1 in X, show that there is a linear function I such that l(x1) not equal to 0

Let V be a finite dimensional vector space over R with an inner product 〈x, y〉...

Let V be a finite dimensional vector space over R with an inner product 〈x, y〉 ∈ R for x, y ∈ V . (a) (3points) Let λ∈R with λ>0. Show that 〈x,y〉′ = λ〈x,y〉, for x,y ∈ V, (b) (2 points) Let T : V → V be a linear operator, such that 〈T(x),T(y)〉 = 〈x,y〉, for all x,y ∈ V. Show that T is one-to-one. (c) (2 points) Recall that the norm of a vector x ∈ V...

Let X be the vector space of all ordered pairs of complex numbers. Can we obtain...

Let X be the vector space of all ordered pairs of complex numbers. Can we obtain the norm defined on ||x||=|ξ_1 |+|ξ_2 | where x=(ξ_1,ξ_2) from an inner product?

Let X be the vector space of all ordered pairs of complex numbers. Can we obtain...

Let X be the vector space of all ordered pairs of complex numbers. Can we obtain the norm defined on ||x||=|ξ_1 |+|ξ_2 | where x=(ξ_1,ξ_2) from an inner product?

Let T be a 1-1 linear transformation from a vector space V to a vector space...

Let T be a 1-1 linear transformation from a vector space V to a vector space W. If the vectors u, v and w are linearly independent in V, prove that T(u), T(v), T(w) are linearly independent in W

let T:V to W be a linear transdormation of vector space V and W and let...

let T:V to W be a linear transdormation of vector space V and W and let B=(v1,v2,...,vn) be a basis for V. Show that if (Tv1,Tv2,...,Tvn) is linearly independent, thenT is injecfive.