Let f(u, v) = u TMv be a bilinear function. Is f an inner product? explain...

let v be an inner product space with an inner product(u,v) prove that ||u+v||<=||u||+||v||, ||w||^2=(w,w) ,...

let v be an inner product space with an inner product(u,v) prove that ||u+v||<=||u||+||v||, ||w||^2=(w,w) , for all u,v load to V. hint : you may use the Cauchy-Schwars inquality: |{u,v}|,= ||u||*||v||.

T/ F : Let V be an inner product space with orthogonal basis B = {v1,...

T/ F : Let V be an inner product space with orthogonal basis B = {v1, . . . , vn}. Let [v]B = (1, 2, 2, 0, . . . , 0). Then ||v|| = 3. The ans is F , but I don't understand why. Please explain.

(i) Let u= (u1,u2) and v= (v1,v2). Show that the following is an inner product by...

(i) Let u= (u1,u2) and v= (v1,v2). Show that the following is an inner product by verifying that the inner product hold <u,v>= 4u1v1 + u2v2 +4u2v2 (ii) Let u= (u1, u2, u3) and v= (v1,v2,v3). Show that the following is an inner product by verifying that the inner product hold <u,v> = 2u1v1 + u2v2 + 4u3v3

Let V={f∈C1([−1,1])|f(1) =f(−1)}, then〈f, g〉=∫(f g+f'g′)dx (from -1 to 1) is an inner product on V...

Let V={f∈C1([−1,1])|f(1) =f(−1)}, then〈f, g〉=∫(f g+f'g′)dx (from -1 to 1) is an inner product on V (you do not have to verify this). Under this inner product, prove that: {x2}⊥={f∈V | ∫(x^2−2)f(x)dx= 0} (from -1 to 1)

Suppose that u and v are two non-orthogonal vectors in an inner product space V,< ,...

Suppose that u and v are two non-orthogonal vectors in an inner product space V,< , >. Question 2: Can we modify the inner product < , > to a new inner product so that the two vectors become orthogonal? Justify your answer.

1. Let u(x) and v(x) be functions such that u(1)=2,u′(1)=3,v(1)=6,v′(1)=−1 If f(x)=u(x)v(x), what is f′(1). Explain...

1. Let u(x) and v(x) be functions such that u(1)=2,u′(1)=3,v(1)=6,v′(1)=−1 If f(x)=u(x)v(x), what is f′(1). Explain how you arrive at your answer. 2. If f(x) is a function such that f(5)=9 and f′(5)=−4, what is the equation of the tangent line to the graph of y=f(x) at the point x=5? Explain how you arrive at your answer. 3. Find the equation of the tangent line to the function g(x)=xx−2 at the point (3,3). Explain how you arrive at your answer....

Let R4 have the inner product <u, v>  =  u1v1 + 2u2v2 + 3u3v3 + 4u4v4...

Let R4 have the inner product <u, v>  =  u1v1 + 2u2v2 + 3u3v3 + 4u4v4 (a) Let w  =  (0, 6, 4, 1). Find ||w||. (b) Let W be the subspace spanned by the vectors u1  =  (0, 0, 2, 1), and   u2  =  (3, 0, −2, 1). Use the Gram-Schmidt process to transform the basis {u1, u2} into an orthonormal basis {v1, v2}. Enter the components of the vector v2 into the answer box below, separated with commas.

A2. Let v be a fixed vector in an inner product space V. Let W be...

A2. Let v be a fixed vector in an inner product space V. Let W be the subset of V consisting of all vectors in V that are orthogonal to v. In set language, W = { w LaTeX: \in ∈V: <w, v> = 0}. Show that W is a subspace of V. Then, if V = R3, v = (1, 1, 1), and the inner product is the usual dot product, find a basis for W.

Only the answers: Determine if the function defines an inner product on R2, where u =...

Only the answers: Determine if the function defines an inner product on R2, where u = (u1, u2) and V= (v1, v2) (Select all that apply.) (u, v)= (u1,v1) a) satisfies (u,v)=(v,u) b) does not satisfy (u, v)=(v,u) c) satisfies (u, v+w) = (u,v)+(u,w) d) does not satisfy (u, v+w) = (u,v)+(u,w) e)satisfies c (u,v) = (cu, v) f) does not satisfies c (u,v) = (cu, v) g) satisfies (v, v) >= 0 and(v,v)=0 if and only if v=0 h)...

only the Answers, Determine if the function defines an inner product on R2, where u =...

only the Answers, Determine if the function defines an inner product on R2, where u = (u1, u2) and v = (v1, v2). (Select all that apply.) (u, v )= (u1v1 + u2v2) a) satisfies (u,v)=(v,u) b) does not satisfy (u, v)=(v,u) c) satisfies (u, v+w) = (u,v)+(u,w) d) does not satisfy (u, v+w) = (u,v)+(u,w) e)satisfies c (u,v) = (cu, v) f) does not satisfies c (u,v) = (cu, v) g) satisfies (v, v) >= 0 and(v,v)=0 if and...