Calculate the electric dipole moment of an electron and a proton 4.30 nm apart?
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.
Determine the magnitude of the force between an electric dipole with a dipole moment of 9 ✕ 10-29 C m and an electron. The electron is positioned r = 28 nm from the centre of the dipole, along the dipole axis. Hint: Assume that r >> d, with d the charge separation distance in the dipole.
Determine the magnitude of the force between an electric dipole with a dipole moment of 2 ✕ 10-29 C m and an electron. The electron is positioned r = 24 nm from the centre of the dipole, along the dipole axis. Hint: Assume that r >> d, with d the charge separation distance in the dipole.
Problem 2: Show that the magnetic dipole moment μ of an electron orbiting the proton nucleus of a hnvcdrogen atonn 1s Telated to the orDIal aigtlal miomentum D DV μ=-L . 2m
Problem 2: Show that the magnetic dipole moment μ of an electron orbiting the proton nucleus of a hnvcdrogen atonn 1s Telated to the orDIal aigtlal miomentum D DV μ=-L . 2m
The distance between proton and electron or a molecule
of dipole and electron molecule of dipole moment is 7.2D:
(q=1.10^-19C and 1D= 3.34x10^-30C.m)
a 140 pm
b 135 pm
c 155 pm
d 150 pm
e 130 pm
need answer asap
The distance between proton and electron of a molecule of dipole moment 7.2 D is: * (3 Points) (q = 1.10- C and ID = 3.34 x 10-30 C.m) 140 pm 135 pm 155 pm 150 pm 130 pm
A dipole of moment 0.50 e . nm is placed in a uniform electric field with a magnitude of 1.2 x 105 N/C. what is the magnitude of the torque on the dipole for each of the following situations? (a) the dipole is aligned with the electric field (b) the dipole is transverse to (perpendicular to) the electric feld (c) the dipole makes an angle of 29.5o with the direction of the electric field 664 N·m (d) Defining the potential...
A dipole of moment 0.50 e nm is placed in a uniform electric field with a magnitude of 1.4 x 105 N/C. What is the magnitude of the torque on the dipole for each of the following situations? (a) the dipole is aligned with the electric field N m (b) the dipole is transverse to (perpendicular to) the electric field N-m (c) the dipole makes an angle of 28.5° with the direction of the electric field N m (d) Defining...
A dipole of moment 0.50 e . nm is placed in a uniform electric field with a magnitude of 1.2 x 105 N/C. what is the magnitude of the torque on the dipole for each of the following situations? (a) the dipale is aligned with the electric field (b) the dipole is transverse to (perpendicular to) the electric field N m (c) the dipole makes an angle of 31.5 with the direction of the electric field N m (d) Defining...
An electric dipole consists of charges +2e and
-2e separated by 0.68 nm. It is in an electric field of
strength 4.4 × 106 N/C. Calculate the magnitude of the
torque on the dipole when the dipole moment is (a)
parallel to, (b) perpendicular to, and
(c) antiparallel to the electric field.
An electric dipole consists of charges +2e and-2e separated by 0.68 nm. It is in an electric field of strength 4.4 x 106 N/C. Calculate the magnitude of...
A particular electric dipole consists of a proton of charge of 1.6x10-19 Coulomb and an electron of charge of -1.6x10-19 Coulomb, separated by 2x10-10[m] = 0.2[nm]. 1a. What’s the electrostatic force between the charges (magnitude and direction), and why? 1b. What’s the electric field magnitude and direction at a point halfway between the two charges, and why? 1c. How much energy (in electron Volts OR in Joules) is needed to separate these two charges? 1d. If these two charges “fell...