Question

Consider the following region R and the vector field F. a. Compute the two-dimensional divergence of the vector field. b. Evaluate both integrals in the flux form of Green's Theorem and check for consistency. c. State whether the vector field is source free. F = (8xy,9x2 - 4y?); R is the region bounded by y = x(6 - x) and y=0. .- a. The two-dimensional divergence is 0 b. Set up the integral over the region. dy dx 0 Set up the line integral for the y = x(6 - x) boundary. 6 dt 0 Set up the line integral for the y = 0 boundary. 6 so dt 0

Answer 1

Sum Given. 8 = <8xY, 9x²442&R is the region bounded by y = x(6%) and y=0, then 19, we have to find Divergence of Since, 8 = < 8x9, 9x²-4723 then, Div(e) = 9. tie bu sahip). Carpit (92493) a(8xY) a (922-492) where + 3f Je Ty 8y-89 Div(E)=0 (b) now, we have to evaluate flux over R. Since, R: y = x(G-X) yao 79 y=-(6-2) flux = á (942492) 2 (8 xy)] dydx (60) then, 6 x (6) x=oy=0 6 x (6x) ( [082-0)- 8x] dydx go yo - Flux = Egy 10x dy dx X=0 go now, we have to seful the line-integereal For the y = x (6x) boundary. Since, y = x (6x) >> dy =((-x)+2x+) de → (dy =(-2x +6) dx then, Line-Integeral is, [Pdp = gry dx + (3x?_482) dy

8x sxf+(6+x){ dx + (3x+yx?(6*B)(6-2x) dx X=0 Because y = x16-20) dy-f2x+6)dx) = $(49x2–8xWdx +(9x?– 43% (36 +x+12x)) (6-2x) dx X=0 8x3 + (9x2_14432_4X4+49x3)(6-2x)] dx 22=0 Gruppe 18x²8x3+ (~195x2-434 +48 x 3) (6-2x)] dx 300 [C4974-823-810x2 + 2qox?c24x4438%+ 279x296294 X=0 SP ** fco=-12021+550x3 - 2628-3dx X=0 Now, we have to setup the integeral for the y=0 boundary Since, y=0 = (dy=0 them, = .م 8xY dx + (98249²) dy $8xxodx + (9x2-0) 0 x=0 [SP SE = So deco X=0 ro) Now, we have to check that reator field ² is Source free or not. Since, Flux of ² = <8xY, (9x244) is zero along and closed curre. Thus, we can say that, vector field È is Source- free -) ² = <8xY, (9x²442) is Source-free vector field