For problem 31 of the text, calculate the potential at point P in uV for the case that theremoved part of the disk subtends an angle of204.0 degrees instead of three quadrants!! (5 sig figs) radial line and has a magnitude of1.28 x 10-21 C.m.What is the net electric potential atthe center?31 SSM www A plastic disk ofradius R 64.0 cm is charged onone side with a uniform surfacecharge density σ = 7.73 fC/m²,and then three quadrants of the diskFigure 24-50 Problem 31.are removed. The remaining quadrant is shown in Fig. 24-50. WithV = 0 at infinity, what is the potential due to the remaining quad-rant at point P, which is on the central axis of the original disk atdistance D = 25.9 cm from the original center?=R QUESTION 4For problem 24.31 of the text, calculate thepotential at point P in μV for the case that theremoved part of the disk subtends an angle of204.0 degrees instead of three quadrants. (5 sig.figs.)

Radius of the disk: Uniform surface charge density: Distance between point P and the center of the disk:The diagram is given below-Here, is the anglular span of the remaining quadarent, is the distance between the center and the boundary of the disk, and is the distance between point P and the boundary of the disk.Since the removed part of the disk subtends at angle , the angle can be calculated as,In radian,From the above diagram,The formula for the potential due to the small elemnet (Shaded part in the diagram) at distance is,Where, is the permitivitty of free space.The net potential due to the remaining pat of the disk is,Substitute , and into the above equation.The potential at point P is .

Answered: blem 31 of the text, calculate the…

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blem 31 of the text, calculate the potential at point P in uV for the case that the removed part of the disk subtends an angle of 204.0 degrees instead of three quadran

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Question

For problem 31 of the text, calculate the potential at point P in uV for the case that the removed part of the disk subtends an angle of 204.0 degrees instead of three quadrants!! (5 sig figs)