Math 211, Fall 2014, Carleton College

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1 A. Let v (, 2, ) (1,, ) 1, 2, and w (,, 3) (1,, ) 1,, 3. Then n v w 6, 3, 2 is perpendicular to the plane, with length 7. Thus n/ n 6/7, 3/7, 2/7 is a unit vector perpendicular to the plane. [The negation of that answer is an equally good answer.] B. By stretching our usual circle parametrization, we can parametrize the ellipse as c(t) (2 cos t, 3 sin t). Notice that c (t) 2 sin t, 3 cos t is tangent to the ellipse and hence n 3 cos t, 2 sin t is normal to the ellipse. Notice also that n points into the curve of the ellipse, and hence is a positive multiple of the normal vector N. Because n 9 cos 2 t + 4 sin 2 t cos 2 t, we conclude that 3 cos t, 2 sin t N cos 2 t C. [This is similar to a homework problem. Specifically, this problem relates to Day 22 Problem B exactly as Day 24 Problem B relates to Day 22 Problem A.] Recall from homework the product rule for divergence: Therefore, for a region of 3D space, div(ff ) dv div(f F ) f F + fdiv F. f F dv + fdivf dv. By the divergence theorem, the term on the left equals (f F ) d S. Rearranging the terms a bit, we have an integration by parts formula fdivf dv (ff ) ds f F dv. 1

2 D1. ell, curl (curl F ) F 1 F 2 F 3 F 3 F 2 F 1 F 3 F 2 F 1 x F 2 y F 1 z F 1 + x F 3 y F 3 z F 2 x F 2 + y F 1 z F 1 x F 3 y F 3 + z F 2 x F 1 + y F 2 + z F 3 x F 1 y F 1 z F 1 x F 1 + y F 2 + z F 3 z F 2 y F 2 x F 2 x F 1 + y F 2 + z F 3 x F 3 y F 3 z F 3 (div F ) F 1 (divf ) F 2 (divf ) F 3 (div F ) F. D2. Taking the curl of Maxwell s third equation and using problem D1, we have ( (dive) E curl B ). t On the left side, the first term vanishes because of Maxwell s first equation. On the right side, t commutes with curl, because they involve different derivatives. [Compute this out if you like.] Therefore E t curl B. Plugging Maxwell s fourth equation into the right side produces the wave equation. 2

3 E. Let f(α, β) sin α + sin β + sin(π α β). The first and second partial derivatives are α α cos α cos(π α β), cos β cos(π α β), sin α sin(π α β), sin β sin(π α β), sin(π α β). The critical points occur where α, so where cos α cos(π α β) cos β. Because α, β, and π α β are all non-negative, the unique critical point is α β π/3 π α β. Now we perform the second derivative test. At the critical point, α 3/2. Because maximum or minimum. Because 3 and ( 2 α) 3 3/4 >, the critical point is a local <, it must be a local maximum. The value of f at this point is 3 3/2. If we insist that α, β, γ >, then we are finished, because the domain of optimization has no boundary. If we allow one of the angles to degenerate to, then the other two angles go to π/2, and f has the value 2, which is less than its value at the critical point. Therefore, even if we consider degenerate triangles, f is maximized at α β γ π/3. F1. ell, z 4 ((x + iy) 2 ) 2 ((x 2 y 2 ) + i(2xy)) 2 ((x 2 y 2 ) 2 4x 2 y 2 ) + i(4(x 2 y 2 )xy). Therefore the vector field is (x 2 y 2 ) 2 4x 2 y 2 + c 1, 4(x 2 y 2 )xy + c 2. F2. The black part of the fractal, representing those values of c for which (, ) never escapes, consists of just the origin (, ). Every other point in the plane is non-black. These points are colored according to their distance from the origin, with the colors changing more quickly as we approach the origin. Here is a plot of the fractal in [ 2, 2] [ 2, 2]. 3

4 G. [I ll omit the sketch.] The integral to compute is 1 x x x 2 x + 2y dz dy dx 1 x 1 1 x 2 + 2xy dy dx x 2 [ x 2 y + xy 2] yx dx yx 2 x 3 + x 3 x 4 x 5 dx [ 1 2 x4 1 5 x5 1 6 x6 ] H. ell, where 1 ρ p + T U 1 ρ p + T 11 + T 12 + T 13 1 ρ p + T 21 + T 22 + T 23 1 ρ p + T 31 + T 32 + T 33 (T 11 1 ρ p) + T 12 + T 13 T 21 + (T 22 1 ρ p) + T 23 T 31 + T 32 + (T 33 1 ρ p) U, T 11 1 ρ p T 12 T 13 T 21 T 22 1 ρ p T 23 T 31 T 32 T 33 1 ρ p. 4

5 I. Let S be the portion of the ellipsoid (x/4) 2 + (y/3) 2 + (z/2) 2 1 where x, y, z. Orient S so that it has upward-pointing normals. Compute the flux of F,, z across S. e parametrize the ellipsoid by G(φ, θ) (4 sin φ cos θ, 3 sin φ sin θ, 2 cos φ). Then G φ 4 cos φ cos θ, 3 cos φ sin θ, 2 sin φ, G θ 4 sin φ sin θ, 3 sin φ cos θ,, n G θ G φ 6 sin 2 φ cos θ, 8 sin 2 φ sin θ, 12 sin φ cos φ. Let s check that we have oriented n correctly. For example, the point ( 4,, ) is on S. At that point, φ π/2 and θ π, so n 6,,. This normal vector points into the ellipsoid, and hence n is upward-pointing on S. The flux is S F d S 3π/2 π π π/2 3π/2 π π π/2 π F ( G(φ, θ)) n(φ, θ) dφ dθ 2 cos φ 12 sin φ cos φ dφ dθ 24 π cos 2 φ sin φ dφ 2 π/2 [ 12π 1 ] π 3 cos3 φ π/2 ( 4π cos 3 π cos 3 π ) 2 4π. Let s check that the sign is correct. The normal n points up, while F points down. So we expect the flux to be negative. 5

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