Which of the following integrals will give the correct value for the total charge of an L-shaped wire carrying a line charge density of sin(x)cos(y) coulombs per meter? The L-shaped wire lies on the plane z = 3 m. It is composed of two wires: one extending from (2, 1, 3) m to (5, 1, 3) m and another extending from (5, 1, 3) m to (5, 3, 3) m. 5 I sin(x)cos(y) dx dy sin(x)cos(y) dx dy sin(x) dx + sin(2) [ cos(y) dy cos(1) cos(1) sin(x) dx + sin(5) cos(y) dy

Which of the following integrals will give the correct value for the total charge of an L-shaped wire carrying a line charge density of sin(x)cos(y) coulombs per meter? The L-shaped wire lies on the plane z = 3 m. It is composed of two wires: one extending from (2, 1, 3) m to (5, 1, 3) m and another extending from (5, 1, 3) m to (5, 3, 3) m. 5 I sin(x)cos(y) dx dy sin(x)cos(y) dx dy sin(x) dx + sin(2) [ cos(y) dy cos(1) cos(1) sin(x) dx + sin(5) cos(y) dy

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Question

Which of the following integrals will give the correct value for the total charge of an L-shaped wire carrying a line charge density of sin(x)cos(y) coulombs per meter? The L-shaped wire
lies on the plane z = 3 m. It is composed of two wires: one extending from (2, 1, 3) m to (5, 1, 3) m and another extending from (5, 1, 3) m to (5, 3, 3) m.
.5
sin(x)cos(y) dx dy
I sin(x)cos(y) dx dy
cos(1)
sin(x) dx + sin(2)
cos(y) dy
cos(1) / sin(x) dx + sin(5)
[ cos(y) dy

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