The electric field just above the face of a penny is 1.14×103 N/C. What is the surface charge density on the surface of that penny face?

Based on the density of your penny, which metal is your penny mostly made of? Prove it using the densities below.Zinc (Zn) = 7.1 g/ml Silver (Ag) = 10.5 g/ml Gold (Au) = 19.3 g/mlCopper (Cu) = 8.9 g/ml Platinum (Pt) = 20.5 g/ml Brass (alloy) = 8.40 g/ml

A surface charge density of 2.10×10-9 C/cm2 exists on a circle-shaped disc. If the disc's radius increases by a factor of 2 (but the total charge stays the same), what is the surface charge density?

A -2.34-nC point charge is located at the center of a conducting spherical shell. The shell has an inner radius of 2.00 m, an outer radius of 4.00 m, and a charge of 8.53-nC. (a) What is the magnitude of the electric field at r = 1.00 m?  N/C (b) What is the magnitude of the electric field at r = 3.00 m?  N/C (c) What is the magnitude of the electric field at r = 5.00 m?  N/C (d) What is the surface charge density, σ, on the outside surface of the shell? (You may enter your calculation using scientific notation.)  C/m2C/m2

A 14 cm-radius hemisphere contains a total charge of853.1 10 C− . The flux through therounded portion of the surface is4 211 10 /Nm C . What is the flux through the flat baseof the hemisphere?

A uniform linear charge density of 4.0 nC/m is distributed along the entire x axis. Consider a spherical (radius = 5.0 cm) surface centered on the origin.Determine the electric flux through this surface.Select one:68 N m2/C62 N m2/C45 N m2/C79 N m2/C23 N m2/C