Answered: blem 31 of the text, calculate the… | bartleby

Related questions

Question

For problem 31 of the text, calculate the potential at point P in uV for the case that the removed part of the disk subtends an angle of 204.0 degrees instead of three quadrants!! (5 sig figs)

radial line and has a magnitude of
1.28 x 10-21 C.m.
What is the net electric potential at
the center?
31 SSM www A plastic disk of
radius R 64.0 cm is charged on
one side with a uniform surface
charge density σ = 7.73 fC/m²,
and then three quadrants of the disk
Figure 24-50 Problem 31.
are removed. The remaining quadrant is shown in Fig. 24-50. With
V = 0 at infinity, what is the potential due to the remaining quad-
rant at point P, which is on the central axis of the original disk at
distance D = 25.9 cm from the original center?
=
R

QUESTION 4
For problem 24.31 of the text, calculate the
potential at point P in μV for the case that the
removed part of the disk subtends an angle of
204.0 degrees instead of three quadrants. (5 sig.
figs.)

Expert Solution

Trending now

This is a popular solution!

Step by step

Solved in 4 steps with 20 images

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

2) A force field is given by F = (-8x + 5yz)i + (5xz-6yz)į + (5xy - 3y')k Determine the associated potential function for this force field if at x = y = z = 1, U=3 J
The clectric potential in a region of space is V (x, y) 200 Volts, where x and x²+y² y are in meters. What are the strength and direction of the clectric ficld at (x, y) = (2.0 m, 2.0 m)? Give the direction as an angle cw or ccw (specify which) from the positive r-axis.
Q3) Find the potential u(r, 9) inside a ring 1
electron in a well. digure 24-65 shows eletric potential V along an x axis. the scale of the vertical axis is set by Vs=8.0V. An eletron is to be released at x=4.5 cm with intial kinetic energy 3.00eV. (a) if it is initially moving in the negative direction of the axis, does it reach a turning point (if so. what is the x coordinate of that point) or does it escape from the plotted region (if so, what is it its speed at x=0)? (b) if it is initially moving in the posiitve direction of the axis, does it reach a turning point (if so, what is the x coordinate of that point) or does it escape from the plotted region (if so, what is its speed at x=7.0 cm)? what are the (C) magnitude F and (d) direction (positive or negative direction of the x axis) of the electric force on the electron if the electron moves just to the left of x=4.0 cm? What are (e)F and (f) the direction if it moves just to the right of x=5.0cm?
Problem 25.5: Find mass of particle Time: 0.9 v = +0 x=+0.1 y=-0.07 V=-0,55 In the animation the electric potential changes from 0 V to 1 V as shown by the equipotential lines (position is given in meters, time is given in seconds, velocity is given in meters/second, and electric potential is given in volts). Click-drag to place the 1-µC test charge anywhere in the animation before you press "play." What is the mass of the particle? Restart. 主

radius R (uniformly distributed) are located at z = R and z =-R and have the same (z) axis. (a) Find expressions for the total electric potential at the origin (z = 0), at the center of the ring at z = R, and at a point on the z axis a distance from the origin, where 0 < z < R. (b) A small bead of mass m with charge q is threaded on a frictionless string along the z axis. If the bead is released from rest at z, will it move toward the origin or toward the ring at z = R? (c) Find an expression for the speed of the bead as it passes through the point you picked in (b).
Consider that a particular physical phenomenon can be modeled, in steric coordinates, by the scalar potential 0, q1 = r, q2 = 0, 93=0, find V, r(r, 0, 0) = r cos tan 0. If ê₁ = f, ê₂ = 4, 3 = knowing that, in generalized coordinates, V4(91, 92, 93) = 3 i=1 1 მს hi dqi
A charged ball is fired straight up, starting from a point at which the electric potential is +200 V. The equipotentials are equally spaced, as shown in the picture below, with successive lines in the 10.0 m/s², directed straight down. The ball has a mass of 200 grams, = picture being exactly 1.00 meter apart. This is done at the surface of the Earth, where the gravitational field has a value of g and the magnitude of the charge on the ball is 10 millicoulombs. 1.00 m Vi +800 V +700 V +600 V +500 V +400 V +300 V +200 V
If you have the following: determine what the equivalent capacitance of the total configuration is:
The space a ≤ r ≤ c < b between cylindrical capacitors of length L, radius a,b and is filled with a dielectric constant K, and the remaining space is vacuum. The potential difference between the capacitor plates is V. (a) Find the electric capacitance. (b) Find the electric field E, electric displacement D, and polarization P in c < r < b
Only 2 c)
For problem 11 of the text, calculate the potential in pixpoV at a point r = 0.398 R from the center of the sphere. (5 sig figs)

SEE MORE QUESTIONS