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A rod of length Z has a positive charge Q which is uniformly distributed across the rod with a constant linear charge density. The rod lies on the x-axis, from x-0 to x - L. Point P is on the y-axis a distance +y from the origin. Let Coulomb's constant be ke Part (a)✓ Consider an infinitesimal portion dQ of the rod a distance x from the origin. Write an expression for the magnitude dE of the electric field at point P, created by this portion. dE-(k, dQ)(x²+y) Part (b)✓ Correct! Express the infinitesimal charge portion do through the linear charge density and the length of the segment, dr. dQ-1 dx Part (c) Correct! Write an equation for the y-component, dE, of the electric field dE at point P, in terms of the coordinates x and y as well as the charge density). Part (d) Write an integral that is an expression for the y-component of the electric field at point P. Part (e) Evaluate the integral from part (d) to write an expression for the y-component Ey of the electric field at point P. Part (1) Write an equation for the x-component, dE, of the electric field dE at point P, in terms of the coordinates x and y as well as the charge density 2. Part (2) Write an integral that is an expression for the x-component of the electric field at point P. Part (h). Evaluate the integral from part (g) to write an expression for the x-component E, of the electric field at point P. OF Grade Summary select part
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