Problem 3. Charge Metal Rod. An isolated very long metallic rod with a uniform circular cross section of radius 0.55 mm has a constant charge per unit length of 2.25 x 10-8 C/m. Find the electric field magnitudes at distances (a) 0.25 mm and (b) 0.75 mm, from the longitudinal axis of the rod.
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- A thin, square, conducting plate 49.0 cm on a side lies in the xy plane. A total charge of 3.70 x 10-8 C is placed on the plate. You may assume the charge density is uniform. (a) Find the charge density on each face of the plate. C/m² (b) Find the electric field just above the plate. magnitude N/C direction -Select--- ✓ (c) Find the electric field just below the plate. magnitude N/C direction -Select--- ✓The figure shows a hollow sphere carrying a total charge of +Q which is distributed uniformly throughout the volume. a is the sphere's inner radius, while b is its outer radius. Find the electric field's magnitude in the region where b>r>a or aI need help answering the attached question.A long silver rod of radius 5 cm has a charge of -4 µC/cm on its surface. (a) Find the electric field (in N/C in the f direction) at a point 15 cm from the center of the rod (an outside point). X N/C îA solid conducting sphere of radius 2.00 cm has a charge of 6.68 μC. calculate the magnitude and direction of the electric field at the following radii from the center of the sphere. a) r = 1.00 cm. b) r = 3.00 cm.4. A point charge q=+15.0µC is located at the origin. A hollow spherical conductor of inner radius a=0.0500 m and outer radius b=0.0950 m is concentric with the point charge, and has a net charge Q= -20.0µC. Using Gauss's law, derive the equation for the magnitude of the electric field as a function of r. aA square plate of copper with 55.0 cm sides has no net charge and is placed in a region of uniform electric field of 75.0 kN/C directed perpendicularly to the plate. (a) Find the charge density of each face of the plate. |nC/m² nC/m? (b) Find the total charge on each face. nC nCA solid metal sphere of radius 3.50 m carries a total charge of -6.10 μC . Need help with part F A. What is the magnitude of the electric field at a distance from the sphere's center of 0.350 m ? |E1| = 0 N/C B. What is the magnitude of the electric field at a distance from the sphere's center of 3.45 m ? |E2| = 0 N/C C. What is the magnitude of the electric field at a distance from the sphere's center of 3.65 m ? |E3| = 4120 N/C d. What is the magnitude of the electric field at a distance from the sphere's center of 6.00 m ? |E4| = 1520 N/C E. How would the answers differ if the sphere was a thin shell? Enter your answers numerically separated by commas. |E1|, |E2|, |E3|, |E4| = 0,0,4120,1520 N/C F. How would the answers differ if the sphere was a solid nonconductor uniformly charged throughout? Enter your answers numerically separated by commas. |E1|, |E2|, |E3|, |E4|Suppose the conducting spherical shell in the figure below carries a charge of 2.80 nC and that a charge of -2.40 nC is at the center of the sphere. If a = 1.80 m and b = 2.30 m, find the electric field at the following. XAX magnitude direction + 7 b a (a) r= 1.50 m magnitude 9.6 direction radially inward (b) r2.20 m 0 (c) r= 2.50 m magnitude 0.576 direction Ⓡ radially outward N/C ✔ N/C The magnitude is zero. ✔ v ✔ N/C (d) What is the charge distribution on the sphere? inner surface outer surface x Your response differs from the correct answer by more than 100 %. nC nC D