Suppose f is a differentiable function of x and y, and g(u, v) = f(eu +...

For the function w=f(x,y) , x=g(u,v) , and y=h(u,v). Use the Chain Rule to     Find...

For the function w=f(x,y) , x=g(u,v) , and y=h(u,v). Use the Chain Rule to     Find ∂w/∂u and ∂w/∂v when u=2 and v=3 if g(2,3)=4, h(2,3)=-2, gu(2,3)=-5,        gv(2,3)=-1 , hu(2,3)=3, hv(2,3)=-5, fx(4,-2)=-4, and fy(4,-2)=7    ∂w/∂u=    ∂w/∂v =

g (u, v) is a differentiable function and g (1,2) = 100, gu (1,2) = 3,...

g (u, v) is a differentiable function and g (1,2) = 100, gu (1,2) = 3, gv (1,2) = 7 are given. The function f is defined as f (x, y, z) = g (xyz, x ^ 2, y^2z). Find the equation of the tangent plane at the point (1,1,1) of the f (x, y, z) = 100 surface.

a)Prove that the function u(x, y) = x -y÷x+y is harmonic and obtain a conjugate function...

a)Prove that the function u(x, y) = x -y÷x+y is harmonic and obtain a conjugate function v(x, y) such that f(z) = u + iv is analytic. b)Convert the integral from 0 to 5 of (25-t²)^3/2 dt into a Beta Function and evaluate the resulting function. c)Solve the first order PDE sin(x) sin(y) ∂u ∂x + cos(x) cos(y) ∂u ∂y = 0 such that u(x, y) = cos(2x), on x + y = π 2

Suppose that  f   is a twice differentiable function and that its second partial derivatives are continuous....

Suppose that  f   is a twice differentiable function and that its second partial derivatives are continuous. Let  h(t) = f (x(t), y(t))  where  x = 2e^ t  and  y = 2t. Suppose that  fx(2, 0) = 1,  fy(2, 0) = 3,  fxx(2, 0) = 4,  fyy(2, 0) = 1,  and  fxy(2, 0) = 4. Find   d ^2h/ dt ^2  when t = 0.

Evaluate the following. f(x, y) = x + y S: r(u, v) = 5 cos(u) i...

Evaluate the following. f(x, y) = x + y S: r(u, v) = 5 cos(u) i + 5 sin(u) j + v k, 0 ≤ u ≤ π/2, 0 ≤ v ≤ 3

Let s = f(x; y; z) and x = x(u; v; w); y = y(u; v;...

Let s = f(x; y; z) and x = x(u; v; w); y = y(u; v; w); z = z(u; v; w). To calculate ∂s ∂u (u = 1, v = 2, w = 3), which of the following pieces of information do you not need? I. f(1, 2, 3) = 5 II. f(7, 8, 9) = 6 III. x(1, 2, 3) = 7 IV. y(1, 2, 3) = 8 V. z(1, 2, 3) = 9 VI. fx(1, 2, 3)...

Suppose that  f   is a twice differentiable function and that its second partial derivatives are continuous....

Suppose that  f   is a twice differentiable function and that its second partial derivatives are continuous. Let  h(t) = f (x(t), y(t))  where  x = 3e ^t  and  y = 2t. Suppose that  fx(3, 0) = 2,  fy(3, 0) = 1,  fxx(3, 0) = 3,  fyy(3, 0) = 2,  and  fxy(3, 0) = 1. Find   d 2h dt 2  when t = 0.

part 1) Find the partial derivatives of the function f(x,y)=xsin(7x^6y): fx(x,y)= fy(x,y)= part 2) Find the...

part 1) Find the partial derivatives of the function f(x,y)=xsin(7x^6y): fx(x,y)= fy(x,y)= part 2) Find the partial derivatives of the function f(x,y)=x^6y^6/x^2+y^2 fx(x,y)= fy(x,y)= part 3) Find all first- and second-order partial derivatives of the function f(x,y)=2x^2y^2−2x^2+5y fx(x,y)= fy(x,y)= fxx(x,y)= fxy(x,y)= fyy(x,y)= part 4) Find all first- and second-order partial derivatives of the function f(x,y)=9ye^(3x) fx(x,y)= fy(x,y)= fxx(x,y)= fxy(x,y)= fyy(x,y)= part 5) For the function given below, find the numbers (x,y) such that fx(x,y)=0 and fy(x,y)=0 f(x,y)=6x^2+23y^2+23xy+4x−2 Answer: x= and...

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 ?

If f is a differentiable function such that f′(x) = (x^2− 16)*g(x), where g(x)>0 for all...

If f is a differentiable function such that f′(x) = (x^2− 16)*g(x), where g(x)>0 for all x, at which value(s) of x does f have a local maximum? 1. At both x=-4,4 2. Only at x=-16 3. Only at x=4 4. At both x=-16,16 5. Only at x=-4 6. Only at x=16