What is the scalar electric field strength 12 mm away perpendicularly from the center of a ring of charge with 15mm radius and has a total charge of +750 uC. note: Answer in GN/C and 3 decimal places
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What is the scalar electric field strength 12 mm away perpendicularly from the center of a ring of charge with 15mm radius and has a total charge of +750 uC.
note: Answer in GN/C and 3 decimal places
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- For the configuration shown in the figure below, suppose a = 5.00 cm, b = 20.0 cm, and c = 25.0 cm. Furthermore, suppose the electric field at a point 18.0 cm from the center is measured to be 3.45 103 N/C radially inward and the electric field at a point 50.0 cm from the center is of magnitude 159 N/C and points radially outward. From this information, find the following. (Include the sign of the charge in your answer.)(a) Three point charges are located on the circumference of a circle of radius r, at the angles shown in the figure. 150° O 30° 270° -2q Q What is the electric field at the center of the circle due to these point charges? (Express your answer in vector form. Use the following as necessary: ker 9, and r.) 3k q -j 2 (b) What If? What is the minimum electric field magnitude that could be obtained at the center of the circle by moving one or more of the charges along the circle, with a minimum separation of 3.90° between each of the charges? Express your result as the ratio of this new electric field magnitude to the magnitude of the electric field found in part (a). Eminimum 0.0015 X Epart (a) Place the two charges +q at 0 = 270° ± y, where y is the smallest angle at which the charges do not overlap with the charge -2q, then write an expression for the electric field at the center. 9A point charge of -3.00 micro Coulomb is located in the center of a spherical cavity of radius 6.50 cm that, in turn, is at the center of an insulating charged solid sphere. The charge density in the solid is 7.35 x 10-4 C/m3. Calculate the electric field (in N/C) inside the solid at a distance of 9.50 cm from the center of the cavity. (Don't express your answers in scientific notation)
- Point P sets above an infinite line of charge 2 m in the positive z direction. The line of charge itself has a charge density ? of -5.0 x 10⁶ C/m. What is the magnitude of the electric field at point P?An infinite line charge of uniform linear charge density lambda = -2.9 mu or micro CC/m lies parallel to the y axis at x = 0 m. A point charge of 0.9 mu or micro CC is located at x = 1.0 m, y = 2.0 m. Find the x component of the electric field at x = 2.0 m, y = 1.5 m. Needs Complete typed solution with 100 % accuracy.A ring of charge is centered at the origin in the vertical direction. The ring has a charge density of 1 = 7.42 x 10* C/m and a radius of R = 1.87 cm. da Find the total electric field, E, of the ring at the point P= (1.56 m, 0.00 m). The Coulomb force constant is k = 1/(4xeg) = 8.99 × 10 N-m²/C². R dE E = N/C Find the expression for the electric field, E-, of the ring as the point P becomes very far from the ring (x » R) in terms of the radius R, the distance x, the total charge on the ring q, and the constant k = 1/(4x€n). E, =
- A charge of -90.4 uC is placed on spherical conductor of radius 10.0 cm. Part (a) What is the magnitude, in newtons per coulmb, of the electric field due to this charge at a distance of 1.32 cm from the center of the sphere? E=_____ N/C. Part (b) What is the magnitude, in newtons per coulmb, of the electric field due to this charge at a distance of 7.08 cm from the center of the sphere? E= ______ N/C Part (c) What is the magnitude, in newtons per coulmb, of the electric field due to this charge at a distance of 17.1 cm from the center of the sphere. E= _______ N/CThere is a 11.3pC point charge. What is the magnitude of the electric field (in N/C) 64.8mm away from this charge?A solid conducting sphere of radius 5.00 cm has a charge of 10.00 µC. A conducting spherical shell of inner radius 8.00 cm and outer radius 10.00 cm is concentric with the solid sphere and has a total charge of -3.00 µC. Find the electric field at the following locations for r: 3, 6, 9, and 12 cm from the center of this charge configuration.
- A charge of 0.600 nC is placed at the center of a cube that measures 4.20 m along each edge. Calculate the electric flux (in N m2/C) through one face of the cube. Note: no other charges are present in this region of space. Round your answer to 2 decimal places.On the x-y plane, a point charge Q = –4.35E-6 C is placed at the origin (0.00 m, 0.00m). The electric field at (x,y) = (2.40 m, 3.20 m) is measured to be Q = Ex + Ey . What is the electric field's y component Ey (in N/C)?A charge distribution creates the following electric field throughout all space: E(r, 0, q) = (3/r) (r hat) + 2 sin cos sin 0(theta hat) + sin cos p (phi hat). Given this electric field, calculate the charge density at location (r, 0, p) = (ab.c).