of 1 80% Sax S2 FIGURE 0.1. The triangle with vertices (0,0), (1,0), (1/2, 1/2) and positive orientation Consider the triangle T depicted in Fig. 0.1. It has vertices (0, 0), (1,0), (1/2, 1/2), and...


of 1<br>80%<br>Sax<br>S2<br>FIGURE 0.1. The triangle with vertices (0,0), (1,0), (1/2, 1/2)<br>and positive orientation<br>Consider the triangle T depicted in Fig. 0.1. It has vertices<br>(0, 0), (1,0), (1/2, 1/2),<br>and sides S1, S2, S3 labeled as in the picture.<br>a) Give a parametrization of S1, S2, S3 with orientation as in the<br>picture.<br>Cousider the outgoing normal vectors to S1, S2 and S3 given by<br>= (0, –1), ñ2 = (1, 1), ig =<br>-1,1).<br>V2<br>V2<br>Moreover consider the vector field F(x, y) = (x, y).<br>b) Compute the flux = , F- īds using the definition of line integral.<br>c) Compute the flux using the divergence theorem.<br>1.<br>

Extracted text: of 1 80% Sax S2 FIGURE 0.1. The triangle with vertices (0,0), (1,0), (1/2, 1/2) and positive orientation Consider the triangle T depicted in Fig. 0.1. It has vertices (0, 0), (1,0), (1/2, 1/2), and sides S1, S2, S3 labeled as in the picture. a) Give a parametrization of S1, S2, S3 with orientation as in the picture. Cousider the outgoing normal vectors to S1, S2 and S3 given by = (0, –1), ñ2 = (1, 1), ig = -1,1). V2 V2 Moreover consider the vector field F(x, y) = (x, y). b) Compute the flux = , F- īds using the definition of line integral. c) Compute the flux using the divergence theorem. 1.

Jun 03, 2022
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