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13 Nov 2019
Evaluate both integrals of the Divergence Theorem for the following vector field and region. Check for agreement. 2 927 18 Type an integer or a simplified fraction.) Set up the surface integral for the Divergence Theorem, using a parametrization with the form r-(a sin u cos v, b sin u sin v, c cos uã for the surface if needed. Select the correct choice below and fill in any answer boxes within your choice. O A. ()du dv, where the integrand does not simplify to a constarnt B. The integral simplifies to .ãD ds. Click to select and enter your answer(s) and then click Check Answer.
Evaluate both integrals of the Divergence Theorem for the following vector field and region. Check for agreement. 2 927 18 Type an integer or a simplified fraction.) Set up the surface integral for the Divergence Theorem, using a parametrization with the form r-(a sin u cos v, b sin u sin v, c cos uã for the surface if needed. Select the correct choice below and fill in any answer boxes within your choice. O A. ()du dv, where the integrand does not simplify to a constarnt B. The integral simplifies to .ãD ds. Click to select and enter your answer(s) and then click Check Answer.
Bunny GreenfelderLv2
20 Jul 2019