Consider the surface σ(u,v) = (f(u)cosv,f(u)sinv,g(u)). Calculate the normal vector. Also identify the surface.

does there exist a surface x=x(u,v) with E=1, F=0, G=(cos^2)u and e=(cos^2)u, f=0, g=1 ?

does there exist a surface x=x(u,v) with E=1, F=0, G=(cos^2)u and e=(cos^2)u, f=0, g=1 ?

Use Stokes’ Theorem to calculate the flux of the curl of the vector field F =...

Use Stokes’ Theorem to calculate the flux of the curl of the vector field F = <y − z, z − x, x + z> across the surface S in the direction of the outward unit normal where S : r(u, v) =<u cos v, u sin v, 9 − u^2 >, 0 ≤ u ≤ 3, 0 ≤ v ≤ 2π. Draw a picture of S.

Consider the surface S parametrized by the equations x = uv, y = u + v,...

Consider the surface S parametrized by the equations x = uv, y = u + v, z = u − v, where u^2 + v^2 ≤ 4. ) Identify the surface S and give its equation in rectangular coordinates

Let U and V be vector spaces. Show that the Cartesian product U × V =...

Let U and V be vector spaces. Show that the Cartesian product U × V = {(u, v) | u ∈ U, v ∈ V } is also a vector space.

Evaluate the surface integral S F · dS for the given vector field F and the...

Evaluate the surface integral S F · dS for the given vector field F and the oriented surface S. In other words, find the flux of F across S. For closed surfaces, use the positive (outward) orientation. F(x, y, z) = y i − x j + z2 k S is the helicoid (with upward orientation) with vector equation r(u, v) = u cos v i + u sin v j + v k, 0 ≤ u ≤ 5, 0...

Let g(u, v) = f(u 3 − v 3 , v3 − u 3 ). Prove...

Let g(u, v) = f(u 3 − v 3 , v3 − u 3 ). Prove that v^2 ∂g/∂u − u^2 ∂g/∂v = 0, using the Chain Rule

Identify the surfaces with the given vector equations r(u,v) = <2usin(2v), 3u^2, 2ucos(2v)> r(u,v) = <2u,...

Identify the surfaces with the given vector equations r(u,v) = <2usin(2v), 3u^2, 2ucos(2v)> r(u,v) = <2u, 7v, u^2-v^2> r(u,v) = <2sin(s), 2t, 4cos(s)> r(u,v) = <3s, 2s+2t-7, t>

a)Suppose U is a nonempty subset of the vector space V over field F. Prove that...

a)Suppose U is a nonempty subset of the vector space V over field F. Prove that U is a subspace if and only if cv + w ∈ U for any c ∈ F and any v, w ∈ U b)Give an example to show that the union of two subspaces of V is not necessarily a subspace.

Let U and V be subspaces of the vector space W . Recall that U ∩...

Let U and V be subspaces of the vector space W . Recall that U ∩ V is the set of all vectors ⃗v in W that are in both of U or V , and that U ∪ V is the set of all vectors ⃗v in W that are in at least one of U or V i: Prove: U ∩V is a subspace of W. ii: Consider the statement: “U ∪ V is a subspace of W...

Let f(x, y) =sqrt(1−xy) and consider the surface S defined by z=f(x, y). find a vector...

Let f(x, y) =sqrt(1−xy) and consider the surface S defined by z=f(x, y). find a vector normal to S at (1,-3)