in spherical coordinates, V=0 at surface theta=pi/6 and V=Vo at surface theta=pi/3. there is no volume...

1) Point R has cylindrical coordinates (5, pi/6, 4). Plot R and describe its location in...

1) Point R has cylindrical coordinates (5, pi/6, 4). Plot R and describe its location in space using rectangular or cartesian coordinates. Please explain and show your steps. 2) Describe the surface with cylindrical equation r =6. Please explain and show your steps. Thank you

Electric Field of a Charged Sphere with a small hole on the surface. Consider a spherical...

Electric Field of a Charged Sphere with a small hole on the surface. Consider a spherical shell of radius R centered on the origin of coordinates. The sphere is uniformly charged, with total charge Q, except for the region where theta <= 1.00?. Consider field point on the positive z-axis. Determine E as a function of z.

1. A 30 cm radius hollow spherical conductive shell of has a surface charge density of...

1. A 30 cm radius hollow spherical conductive shell of has a surface charge density of 10 µC/m2, a point charge Q1 is in its center. Find the electric flux through the spherical surface centered at Q1: a. if the value is Q1= +3.5x10-6 C charge b. if the value is Q1= -2.5x10-6 C charge c. What would be the electric field in each case? Please explain how you got the answer, having trouble understanding this and can't seem to...

A thin, uniformly charged spherical shell has a potential of 727 V on its surface. Outside...

A thin, uniformly charged spherical shell has a potential of 727 V on its surface. Outside the sphere, at a radial distance of 20.0 cm from this surface, the potential is 403 V. (1) Calculate the radius of the sphere. (2) Determine the total charge on the sphere (3) What is the electric potential inside the sphere at a radius of 3.0 cm (4) Calculate the magnitude of the electric field at the surface of the sphere. (5) If an...

Find the length of the parabolic segment r = 6/(1+cos theta), 0 less than or equal...

Find the length of the parabolic segment r = 6/(1+cos theta), 0 less than or equal to theta less than or equal to pi/2. Please show a graph. If you could, please write legibly and indicate why each step was taken. It is a great help!

Drag a negative charge onto the grid and use the tape measure to place this charge...

Drag a negative charge onto the grid and use the tape measure to place this charge 0.5 m directly to the right of the positive charge. Drag a Voltmeter back onto the grid. Use the tape measure and the sensor to measure the electric potential at a distance of 0.5 m directly above the negative charge. Record below. V=___5.760V______           Use what we’ve learned in class to calculate the electric potential at this location. Show all work below. ( 1nC =...

A spherical charge distribution has a volume charge density that is a function only of r,...

A spherical charge distribution has a volume charge density that is a function only of r, the distance from the center of the distribution (rho=rho(r)). If rho(r) is given below, determine the electric field as a function of r using Gauss’s law. (A) rho=A/r for 0<r<R where A is a constant; rho=0 for r>R. (B) rho=rho0 (a constant) for 0<r<R; rho=0 for r>R. (C) Integrate the results to obtain an expression for the electric potential subject to the restriction that...

A solid spherical nonconductor with a radius of 0.25m contains an interior charge density (Q/V) of...

A solid spherical nonconductor with a radius of 0.25m contains an interior charge density (Q/V) of 1.00*10-6 r3 C/m3 where r is the distance from the center of the sphere. a) Determine an expression for the total charge within a radius r less than or equal to 0.25m b) Determine an expression for the total charge contained within the nonconducting sphere c) Using Gauss' Law find an expression for the magnitude of the electric field within the sphere as a...

Assume a balloon is hanging at an angle of 15.0 (theta) to the vertical because there...

Assume a balloon is hanging at an angle of 15.0 (theta) to the vertical because there is a tiny charged object (to the right of it) sufficiently close to it that causes it to hang at this angle. The mass of the balloon is 2.75 grams and the string it's hanging from is 1.5 meters. The balloon has 275 trillion electrons. Given the above details: (Please show all steps clearly) a) If the center to center distance between the balloon...

The Van de Graaff generator has a spherical thin conducting shell with a radius of 15....

The Van de Graaff generator has a spherical thin conducting shell with a radius of 15. cm and a surface charge density 2.1 x 10-3 μC/cm2 . a. Determine the total charge on the surface of the Van de Graaff [6.02 μC] b. Use Gauss's Law to determine the magnitude and direction of the electric field inside the dome at a distance 6. cm from the center. Sketch and label the electric field, Gaussian surface, etc. You must use Gauss's...