3-vectors u, v, and w satisfy u⋅(v ×w)=7. Find [u,v,w]⋅[v×w, u×w,u×v]^T using properties of the triple...

In 3 dimensions, draw vectors u, v, w, and x such that u+v+w=x. The vectors u...

In 3 dimensions, draw vectors u, v, w, and x such that u+v+w=x. The vectors u and x share an initium. You may pick the size of your vectors. Make sure the math works. Find the angle between vector x and vector u.

It is not true that the equality u x (v x w) = (u x v)...

It is not true that the equality u x (v x w) = (u x v) x w for all vectors. 1. Find explicit vector for u, v and w where this equality does not hold. 2. U, V and W are all nonzero vectors that satisfy the equality. Show that at least one of the conditions below holds: a) v is orthogonal to u and w. b) w is a scalar multiple of u. You can possibly use a...

Letu=2i−3j+k,v=i+4j−k,andw=j+k. (a) Find u × v and v × u, and show that each of those...

Letu=2i−3j+k,v=i+4j−k,andw=j+k. (a) Find u × v and v × u, and show that each of those vectors is orthogonal to both u and v. (b) Find the area of the parallelogram that has u and v as adjacent sides. (c) Use the triple scalar product to find the volume of the parallelepiped having adjacent edges u, v, and w.

Find the following for the vectors u= -10+9j+√3k and v= 10i-9j-√3k. a) v*u, |v|, and |u|....

Find the following for the vectors u= -10+9j+√3k and v= 10i-9j-√3k. a) v*u, |v|, and |u|. b) the cosine of the angle between v and u. c) the scalar component of u in the direction of v d) the vector projvu

Let the linear transformation T: V--->W be such that T (u) = u2 If a, b...

Let the linear transformation T: V--->W be such that T (u) = u2 If a, b are Real. Find T (au + bv) , if u = (x, y) v = (z, w) and uv = (xz-yw, xw + yz) Let the linear transformation T: V---> W be such that T (u) = T (x, y) = (xy, 0) where u = (x, y), with 2, -3. Then, if u = ( 1.0) and v = (0.1). Find the value...

Calculate the partial derivatives ∂U/∂T and ∂T/∂U using implicit differentiation of (TU−V)2ln(W−UV)=ln(5) at (T,U,V,W)=(4,1,5,10).

Calculate the partial derivatives ∂U/∂T and ∂T/∂U using implicit differentiation of (TU−V)2ln(W−UV)=ln(5) at (T,U,V,W)=(4,1,5,10).

Calculate the partial derivatives ∂U∂T and ∂T∂U of (TU−V)2ln(W−UV)=1 at (T,U,V,W)=(4,1,9,18) using implicit differentiation: ∂U∂T∣∣∣(4,1,9,18)= equation...

Calculate the partial derivatives ∂U∂T and ∂T∂U of (TU−V)2ln(W−UV)=1 at (T,U,V,W)=(4,1,9,18) using implicit differentiation: ∂U∂T∣∣∣(4,1,9,18)= equation editor Equation Editor ∂T∂U∣∣∣(4,1,9,18)=

Let u, vand w be linearly dependent vectors in a vector space V. Prove that for...

Let u, vand w be linearly dependent vectors in a vector space V. Prove that for any vector z in V whatsoever, the vectors u, v, w and z are linearly dependent.

5. a) Suppose that the area of the parallelogram spanned by the vectors ~u and ~v...

5. a) Suppose that the area of the parallelogram spanned by the vectors ~u and ~v is 10. What is the area of the parallogram spanned by the vectors 2~u + 3~v and −3~u + 4~v ? (b) Given (~u × ~v) · ~w = 10. What is ((~u + ~v) × (~v + ~w)) · ( ~w + ~u)? [4] 6. Find an equation of the plane that is perpendicular to the plane x + 2y + 4 =...

Let u=〈5,-1,6〉, v=〈0,1,2〉, and w=〈1,3,4〉. Find (a)u×(v×w) (b)(u×v)×w (c)(u×v)×(v×w) d)(v×w)×(u×v).

Let u=〈5,-1,6〉, v=〈0,1,2〉, and w=〈1,3,4〉. Find (a)u×(v×w) (b)(u×v)×w (c)(u×v)×(v×w) d)(v×w)×(u×v).