Which equations comprise Maxwell’s equations? a) Gauss’ law for electric field, Coulomb’s law, Faraday’s law, and...

Part A. According to Faraday’s Law, an emf can be formed by A. a changing electric...

Part A. According to Faraday’s Law, an emf can be formed by A. a changing electric field B. a changing magnetic field C. a constant electric field D. a constant magnetic field I think it might be B, idk. Part B. You are facing a copper ring and insert a magnetic, north first, into the ring. Which direction is the induced current in the ring. A. Counterclockwise B. Clockwise

1. State Maxwell’s equation for the curl of the magnetic and the electric field in free...

1. State Maxwell’s equation for the curl of the magnetic and the electric field in free space. State the meaning of all the terms in the equations and identify the displacement current density.

Which of the following is/are TRUE? a. Faraday’s law of electromagnetic induction states that the induced...

Which of the following is/are TRUE? a. Faraday’s law of electromagnetic induction states that the induced emf or current in a circuit is directly proportional to the time rate of change of the magnetic flux in the circuit b. There is induced emf or current in a circuit of the magnetic field in the circuit is very high c. There is induced emf or current in a circuit if the area of the circuit is not too big d. There...

Faraday's law states that a changing magnetic field will create an electric field that curls around...

Faraday's law states that a changing magnetic field will create an electric field that curls around the magnetic field. To quantify this, we use the expression of flux (Φ) which is the magnetic field strength multiplied by the area (A) it’s passing through. This is given by: Φ = ?? The electric field is applied to the outside edge of this area. This created an electric potential that is referred to as an electro-motive force (EMF, ε). Faraday’s law can...

By showing that this electric field obeys Gauss' law, as well as the Maxwell Faraday equation...

By showing that this electric field obeys Gauss' law, as well as the Maxwell Faraday equation and write down in words what conditions need to be met. Consider both the differential and integral forms, whichever is most appropriate. For example, do you "see" the correct charge enclosed in a closed surface? How can I integrate electric field with da using Cartesian coordinate? Please also write the range (Integral from 0 to ~). If possible, please write the equations to represent...

List all of the choices that directly describe one of Maxwell’s equations. Hint: A correct response...

List all of the choices that directly describe one of Maxwell’s equations. Hint: A correct response will pick EXACTLY four of these choices. Reminder: You need to provide some form of reasoning to receive credit for you answers. For example, you could do this by identifying what equations are described by your answer choices. A.) gives the electric force between two point charges based on their charges and distance apart B.) voltage equals current times resistance C.) gives the relation...

A)According to Faraday’s Law, a changing magnetic field induces a voltage. One of the things that...

A)According to Faraday’s Law, a changing magnetic field induces a voltage. One of the things that can be done to increase the induced voltage is to increase the magnetic field strength. State at least two other things that can be changed to increase the induced the voltage. B)State the electromagnetic spectrum in order from low frequency to high frequency. Also state, with an arrow the direction of the electromagnetic spectrum from short wavelength to long wavelength.

[Draw the electric field around Earth. Draw a Gaussian surface and use Gauss’ law, explaining your...

[Draw the electric field around Earth. Draw a Gaussian surface and use Gauss’ law, explaining your steps.] If the Earth were a large conducting sphere, what would the (negative) surface charge density have to be to maintain an electric field of 150.0 N/C at the surface? Use ε0 = 8.85 x 10-12 C2/N m2 and give your answer to 2 s.f.

Using Faraday’s Law equation, answer the following mathematical questions. A plane circular loop of conducting wire...

Using Faraday’s Law equation, answer the following mathematical questions. A plane circular loop of conducting wire has a radius r = 8m and N = 4 turns. It is located in a uniform magnetic field. The magnetic field’s direction makes a 75° angle with respect to the normal of the loop. The magnitude of magnetic field B increases at a constant rate from B1 = 3.2 T to B2 = 4.7 T in a time interval of t =5s. If...

A very long cylinder of radius ? carries volume current that is spatially uniform but slowly...

A very long cylinder of radius ? carries volume current that is spatially uniform but slowly time varying: ? = ?0?̂ Where ?0 is constant in space but not in time a) What does the pattern of the current tell you about the associated magnetic field? b) Use Ampere’s law to find the magnetic field (you must show the Amperian loop(s) used) c) What does the pattern of the magnetic field tell you about the induced electric field? d) Use...