A spherical rubber balloon carries a total charge Qdistributed uniformly over its surface. At t=0, the radius of the balloon is R. The balloon is then slowly inflated until its radius reaches 2R at the time t0.Determine the electric field due to this charge as a function of time (a) at the surface of the balloon, (b) at the surface of radius R, and (c) at the surface of radius 2R. Ignore any effect on the electric field due to the material of the balloon and assume that the radius increases uniformly with time.
Please work out part (a) - (c) of this question with steps shown to how the answer was derived.
A spherical rubber balloon carries a total charge Qdistributed uniformly over its surface. At t=0, the radius of...
Positive charge is spread uniformly over the surface of a spherical balloon 70 cm in radius, resulting in an electric field of 42 kN/C at the balloon's surface. 1. Find the field strength 50 cm from the balloon's center in kN/C 2. Find the field strength 180 cm from the center. in kN/C 3. What is the net charge on the balloon? in uC
An isolated thin spherical conducting shell of radius R has charge Q uniformly distributed on its surface. Write the results in terms of k, Q and R. (a) Find the electric field at a distance, r = 2R from the center of the sphere. (b) What is the electric field at the center of the conducting sphere? What is the electric field inside the conducting sphere? Please explain the steps and formuals. Mandatory !!!
A spherical shell of radius R1=4 cm carries a total charge q1=10 C that is uniformly distributed on its surface. A second, larger spherical shell of radius R2=24 cm that is concentric with the first carries a charge q2=6 C that is uniformly distributed on its surface. Calculate the strength of the electric field at r=12 cm. (Your result must be in multiples of 1013 N/C. That means if, for example, you get a result of a × 10 13...
1. a- A spherical balloon made of rubber (an insulator) has the size of 2.00 m in radius. An amount of charge Q = –1.50×10–6 C is uniformly distributed on the balloon. What is the electric field E at the point 2.40 m from the center of the balloon (use positive sign if E points away from the center and negative sign if E points toward the center)? b- An infinitely large plane carries a uniformly distributed charge such that...
A spherical shell 35 cm in diameter carries 83μC distributed uniformly over its surface. A 4.0 μC point charge is located at the shell’s center. Find the electric field strength 6.4 cm from the center.
A charge Q is distributed uniformly on the surface of a spherical conducting shell of radius 10 cm. The magnitude of electric field on the surface is 106V/m. What is the magnitude of electric field 20 cm from the center of the shell? What is the surface charge density in Cm2 of the spherical shell in problem 4?
(22.63) Positive charge Q is distributed uniformly over each of two spherical volumes with radius R. One sphere of charge is centered at the origin and the other at x=2R as shown below. Find the magnitude and direction of the net electric field due to these two distributions of charge at the following points on the x-axis: a) x=0 b) x=R/2 c) x=R d) x=3R
A charge of -20 HC is distributed uniformly over the surface of a spherical conductor of radius 12.0 cm. Determine the electric field (in N/C) due to this charge at the following distances from the center of the sphere. (Enter the radial component of the electric field.) (a) 7.0 cm N/C) (b) 9.0 cm Nc) N/C (c 22.0 cm
#1 and #3 I) )A solid insulating sphere of radius a carries a net positive charge density 3p uniformly distributed throughout its volume. A conducting spherical shell of inner radius 2a and outer radius 3a is concentric with the solid sphere and carries a net charge density-22 Using Gauss's law, find the electric field everywhere. Sketch the electric field 2) "A) The current density in a cylindrical wire of radius R meters is uniform across a cross section of the...
A charge of 8.0 pC is distributed uniformly on a spherical surface (radius = 2.0cm), and a second charge of -3.0 pC is distributed uniformly on a concentric sphericalsurface (radius = 4.0cm). Determine the magnitude of the electric field 5.0cm from the center of the two surfaces.