Two conductors with concentric radii r1=5 m and r2=22 m are placed in such a way that their center is the origin. While there is a charge Q1=8 µC on the circle with radius r1, there is a charge Q2=3,8 µC Accordingly. the electric field at point A(19, 32°, 45°) is given below. Find the amplitude of the electric field. m=3,1416
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- Two conductors with concentric radii r1=6 m and r2=28 m are placed in such a way that their center is the origin. While there is a charge Q1=7,8 µC on the circle with radius r1, there is a charge Q2=6,3 µC Accordingly, the electric field at point A(17, 66°, 54 ) is given below. Find the amplitude of the electric field. T=3,1416 1 • 10-9 36n E= Q2 r2 Q1 r1 A Yanıt: Seçiniz. +Two conductors with concentric radii r1=4 m and r2=24 m are placed in such a way that their center is the origin. While there is a charge Q1=1 µC on the circle with radius r1, there is a charge Q2=1,3 µC Accordingly, the electric field at point A(15, 74°, 22°) is given below. Find the amplitude of the electric field. TI=3,1416 1 10-9 E= 36n Q2 r2 Q1 r1 •A Yanıt: Seçiniz. +Two conductors with concentric radii r1=5 m and r2=23 m are placed in such a way that their center is the origin. While there is a charge Q1=7,1 µC on the circle with radius r1, there is a charge Q2=7,1 µC Accordingly, the electric field at point A(18, 162°, 52°) is given below. Find the amplitude of the electric field. TT=3,1416 E= 36п 10-9 Q2 r2 Q1 A X
- Two conductors with concentric radii r1=9 m and r2=15 m are placed in such a way that their center is the origin. While there is a charge Q1=5,1 µC on the circle with radius r1, there is a charge Q2%36,7 µC. Accordingly, Find the amplitude of the electric field at point A(2, 23°, 53°) is given below. TT=3,1416 1 10-9 E= 36T Q2 12 Q1 27°C McTwo conductors with concentric radii r1=10 m and r2=20 m are placed in such a way that their center is at the origin. While there is a charge Q1=8,8 µC on the circle with radius r1 and charge Q2=8,7 µC on the circle with radius r2. Accordingly, find the amplitude of the electric field at point A(3, 4, 2). TT=3,1416 1 10-9 E= 36п Q2 Q1 A XTwo conductors with concentric radii r1=23 m and r2=68 m are placed in such a way that their center is at the origin. While there is a charge Q1=8,3 µC on the circle with radius r1 and charge Q2=2,7 µC on the circle with radius r2. Accordingly, find the amplitude of the electric field at point A(10, 6, 9). n=3,1416 1 E= 36п 10-9 Q2 r2 Q1 r1 A
- Two conductors with concentric radii r1=6 m and r2=15 m are placed in such a way that their center is the origin. While there is a charge Q1=7,6 µC on the circle with radius r1, there is a charge Q2=1,4 µC. Accordingly, Find the amplitude of the electric field at point A(8,9, 113°, 25°) is given below. T=3,1416 1 10-9 E= 36n Q2 r2 Q1 r1. y Yanıt: Seçiniz. +Two conductors with concentric radii r1=13 m and r2=26 m are placed in such a way that their center is at the origin. While there is a charge Q1=7 µC on the cirdle with radius r1 and charge Q2=5 µC on the cirde with radius r2. Accordingly, find the amplitude of the electric field at point A(6, 7, 2). TT=3,1416 1 10-9 E= 36n Q2 r2 Q1 A X Yanıt: Seçiniz. *Two conductors with concentric radii r1=5 m and r2=14 m are placed in such a way that their center is the origin. While there is a charge Q1=4.5 uC on the circle with radius r1, there is a charge Q2=2.2 µC. Solution, Find the amplitude of the electric field at point A(5.4, 111°, 62°) is given below. Tn=3.1416 1 •10-9 36n E= Q2 r2 Q1 r1 →y Response: Choose. +
- A square surface of side length L and parallel to the y-z plane is situated in an electric field given by E(x, y, z) = E[i+ a(yj + zk)/V(y + z) ]. The square's sides are parallel to the y- and z-axes and it is centered on the x-axis at position Py. Its normal vector points in the positive x-direction. a is a unitless constant. Refer to the figure. The x-axis points out of the screen. Pr Part (a) Integrate to find an expression for the total electric flux through the square surface in terms of defined quantities and enter the expression. Part (b) For L = 8.2 m, E, = 309.9 V/m, and a = 9.9, find the value of the flux, in units of volt•meter.Charge E (10 microC), Charge F (2 microC), and Charge G (10 microC) are located in the cartesian plane with the following coordinates, respectively (0 cm, 5 cm), (0 cm, 0 cm), and (5 cm, 0 cm). Calculate the electric field at midpoint between Charge E and Charge F.Two conductors with concentric radii r1=12 m and r2=25 m are placed in such a way that their center is at the origin. While there is a charge Q1=7,8 µC on the circle wi th radius r1 and charge Q2=3,1 µC on the circle with radius r2. Accordingly, find the amplitude of the electric field at point A(3, 2, 7). TI=3,1416 1 10-9 36п Q2 r2 Q1 ri y A Yanıt: Seçiniz. +