I want to calculate the magnetic flux which is defined as: If the magnetic field (B) changes over the area, then this surface integral can be pretty tough. Use Equation \ref{equation1} to find the area of the surface of revolution obtained by rotating curve \(y = \sin x, \, 0 \leq x \leq \pi\) about the \(x\)-axis. start bold text, v, end bold text, with, vector, on top, left parenthesis, start color #0c7f99, t, end color #0c7f99, comma, start color #bc2612, s, end color #bc2612, right parenthesis, start color #0c7f99, t, end color #0c7f99, start color #bc2612, s, end color #bc2612, f, left parenthesis, x, comma, y, right parenthesis, f, left parenthesis, x, comma, y, comma, z, right parenthesis, start bold text, v, end bold text, with, vector, on top, left parenthesis, t, comma, s, right parenthesis, start color #0c7f99, d, t, end color #0c7f99, start color #bc2612, d, s, end color #bc2612, d, \Sigma, equals, open vertical bar, start fraction, \partial, start bold text, v, end bold text, with, vector, on top, divided by, \partial, start color #0c7f99, t, end color #0c7f99, end fraction, times, start fraction, \partial, start bold text, v, end bold text, with, vector, on top, divided by, \partial, start color #bc2612, s, end color #bc2612, end fraction, close vertical bar, start color #0c7f99, d, t, end color #0c7f99, start color #bc2612, d, s, end color #bc2612, \iint, start subscript, S, end subscript, f, left parenthesis, x, comma, y, comma, z, right parenthesis, d, \Sigma, equals, \iint, start subscript, T, end subscript, f, left parenthesis, start bold text, v, end bold text, with, vector, on top, left parenthesis, t, comma, s, right parenthesis, right parenthesis, open vertical bar, start fraction, \partial, start bold text, v, end bold text, with, vector, on top, divided by, \partial, start color #0c7f99, t, end color #0c7f99, end fraction, times, start fraction, \partial, start bold text, v, end bold text, with, vector, on top, divided by, \partial, start color #bc2612, s, end color #bc2612, end fraction, close vertical bar, start color #0c7f99, d, t, end color #0c7f99, start color #bc2612, d, s, end color #bc2612. Surface integrals of scalar fields. Chapter 5: Gauss's Law I - Valparaiso University Give a parameterization of the cone \(x^2 + y^2 = z^2\) lying on or above the plane \(z = -2\). Choose point \(P_{ij}\) in each piece \(S_{ij}\) evaluate \(P_{ij}\) at \(f\), and multiply by area \(S_{ij}\) to form the Riemann sum, \[\sum_{i=1}^m \sum_{j=1}^n f(P_{ij}) \, \Delta S_{ij}. Some surfaces, such as a Mbius strip, cannot be oriented. The LibreTexts libraries arePowered by NICE CXone Expertand are supported by the Department of Education Open Textbook Pilot Project, the UC Davis Office of the Provost, the UC Davis Library, the California State University Affordable Learning Solutions Program, and Merlot.

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