4. (4 points) If the charges in Figure 1 represented an electron at the origin and...
A proton and an electron have charges e and –e. They are moving
with the same speed in opposite directions, as you can see above.
At a particular moment, the proton is at a distance d directly
above the electron. At this moment, the velocity of the electron
points in the positive x-axis and the velocity of the proton points
in the negative x-axis.
A. What is the direction of the magnetic field from the electron
at the location of...
A dipole with charges of +2e and -2e is centered at the origin and oriented along the y axis, with the +2e charge on the +y axis and the -2e charge on the -y axis. The charges of the dipole are separated by a distance of 3*10^-10 meters. Determine the electric field at the location < -4*10^-8, 0, 0 > meters in vector form. Determine the force an electron would feel if placed at this location in vector form. Determine...
An electron and a proton are each moving at 845 km/s in perpendicular paths as shown in the figure(Figure 1) .
At the instant they are at the positions shown in the figure. (A)
Find the magnitude of the total magnetic field they produce at the
origin. (B) Find the direction of the total magnetic field they
produce at the origin. (C) Find the magnitude of the magnetic field
the electron produces at the location of the proton. (D)Find the
direction of the magnetic field...
What are the charges for proton and electron? Explain the Coulomb's law. If q1 = 7C, q2 = - 6 C, the magnitude force acting on q2 from qi is Fq2 = 62.0 N, what is distance in cm between 1 and 42? Three-point charges lie along the x axis as shown in the figure. The positive charge q1 = 8.0 LC is at x1 = 18.0 cm, the positive charge q2 = 3.00 LC is at the origin, and...
An electron and a proton are 0.53 x 10^-10 m apart. Calculate their dipole moment if they are at rest. Using your dipole moment calculation, find the electric potential at a point 1.1 x 10^-9 m away when this point is along the axis of the dipole nearer the positive charge and when this point is 45o left of the axis but nearer the negative charge.
A dipole is centered at the origin, and is composed of charged particles with charge +e and -e, separated by a distance 9 times 10^-10 m along the y axis. The +e charge is on the -y axis, and the -e charge is on the +y axis. A proton is located at < 0, 1 times 10^-8, 0 > m. What is the force on the proton, due to the dipole? F vector = N An electron is located at...
A dipole is located at the origin, and is composed of charged particles with charge e and -e, separated by a distance 2 10-10 m along the x axis. The positive x axis points to the right. The te charge is on the positive x-axis. Suggestion: draw a picture with the dipole and the observation location (where you want to find the field). What is the magnitude of the electric field due to this dipole at location 〈 0,2 *...
3. A positive charge of 3 uC is at the origin. A negative charge with the same magnitude is 8 m away along the x direction. (a) What are the magnitude and direction of the electric fieldat the points between the two charges, 2, 4, and 6 m from the positive charge? (b) What is the electric potential at each of these three points? (The reference point, where V 0, is infinitely far away.)
Question 16 of 17> A certain electric dipole consists of charges +q and -q separated by distance d, oriented along the x-axis as shown in the figure. Find an expression for the magnitude of the electric field E of the dipole at a point far away in the y-direction, a distance r away from the midpoint of the dipole. Assume that r is much greater than d. Enter your answer in terms of q, d, r, and eo Figure is...
Three charges are arranged as shown in the figure below. Find
the magnitude and direction of the electrostatic force on the
charge q = 5.14 nC at the origin. (Let
r12 = 0.230 m.)
Three point charges lie along the axes in the x
y-coordinate plane.
Positive charge q is at the origin.
A charge of 6.00 nC is at (r1 2, 0), where
r1 2 > 0.
A charge of −3.00 nC is at (0, −0.100 m).
1) what...