Finding the Cross Product In Exercises 7–14, find (a) u × v, (b) v × u,...

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...

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 scalar product.

Math Homework Question: Use the cross product to find a unit vector orthogonal to both u...

Math Homework Question: Use the cross product to find a unit vector orthogonal to both u = (1, 2, 3) and v = (4, 5, 6). Determine a nonzero vector orthogonal to both u = (3, 1, 1, 1) and v = (5, −1, 1, −1). Why can you not use the same method as in part (a)?

Consider the following. u = −6, −4, −7 ,    v = 3, 5, 2 (a) Find the...

Consider the following. u = −6, −4, −7 ,    v = 3, 5, 2 (a) Find the projection of u onto v. (b) Find the vector component of u orthogonal to v.

(uxv) is orthogonal to (u+v) and (u-v) u and v are nonzero vectors not sure where...

(uxv) is orthogonal to (u+v) and (u-v) u and v are nonzero vectors not sure where to go from this I do the cross product of uxv...what do i do for u+v and u-v?? is it a dot product?

Find the fundamental vector product. 1. r(u, v) = (u 2 − v 2 ) i...

Find the fundamental vector product. 1. r(u, v) = (u 2 − v 2 ) i + (u 2 + v 2 ) j + 2uv k. 2. r(u, v) = u cos v i + u sin v j + k.

Let u = <10,7,7> find and describe all vectors v such that u x v =...

Let u = <10,7,7> find and describe all vectors v such that u x v = (u cross v)=< -7,10, 0>:

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).

Vector B is formed by the product of two gradients B = (∇u) × (∇v) ,...

Vector B is formed by the product of two gradients B = (∇u) × (∇v) , where u and v are scalar functions. Show that: (a) B is solenoidal; (b) A = 1/2(u∇v  − v∇u) is a vector potential for B, that is B =∇×A

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||.

Let u=<a+1, b, c+1> find and describe all vectors v such that |uxv| =2 u.v a=7...

Let u=<a+1, b, c+1> find and describe all vectors v such that |uxv| =2 u.v a=7 , b=9 , c=9 .