DOC PREVIEW
CU-Boulder PHYS 1120 - Faraday CT's

This preview shows page 1-2-3 out of 10 pages.

Save
View full document
View full document
Premium Document
Do you want full access? Go Premium and unlock all 10 pages.
Access to all documents
Download any document
Ad free experience
View full document
Premium Document
Do you want full access? Go Premium and unlock all 10 pages.
Access to all documents
Download any document
Ad free experience
View full document
Premium Document
Do you want full access? Go Premium and unlock all 10 pages.
Access to all documents
Download any document
Ad free experience
Premium Document
Do you want full access? Go Premium and unlock all 10 pages.
Access to all documents
Download any document
Ad free experience

Unformatted text preview:

Faraday CT'sF-1In which situation is the magnetic flux through the loop the smallest?(A) Same flux in all three situations.area 2A edge-on constant uniform B-field area A face-on area A tilted 60o (B) (D) (C)F-2 A loop of wire is moving rapidly through a uniform magnetic field as shown. True (A) or False(B): there is a non-zero emf induced in the loop. A loop of wire is spinning rapidly about a stationary axis in uniform magnetic field as shown. True(A) or False(B): there is a non-zero emf induced in the loop.F-3A loop of wire is sitting in a uniform, constant magnet field as shown. Suddenly, the loop is bent into a smaller area loop. During the bending of the loop, the induced current in the loop is ...A: zero B: clockwise C: counterclockwiseB(in) B(in)F-4A bar magnet is positioned below a horizontal loop of wire with its North pole pointing toward the loop. Then the magnet is pulled down, away from the loop. As viewed from above, is the induced current in the loop clockwise or counterclockwise?A: clockwiseB: counter-clockwiseNSeyeballF-5A square loop is rotating in a fixed, external magnetic field into the page. At the instant shown, the loop is out of the plane of the page with left side of the loop above the page and coming out of the page, the right side in going in. The induced current is ...axis of rotationB(in)ABC) NeitherF-6A loop of wire is near a long straight wire which is carrying a large current I, whichis decreasing. The loop and the straight wire are in the same plane and are positioned as shown. The current induced in the loop is A: counter-clockwise B: clockwise C: zero.I to the right, but decreasin g . loopF-7Two loop of wires labeled A and B are placed near each other as shown. A large current I in loop A is suddenly turned on. This causes an induced current in loop Bwhich causesA: A net replusive force - the two loops repelB: A net attractive force - the two loops attractC: whether the force is attractive or repulsive depends on whether the current in first loop is CW or CCWD: No net force.F-8 A wire loop, moving right, enters a region where there is a constant, uniform magnetic field pointing into the page.As the loop enters the B-field, the current induced in the loop is ...A: CW B: CCWAs the loop enters the B-field, the direction of the net force on the loop is ...A: right  B:  C: up  D: downE: there is no net forceBF-9An electric motor consists of a coil, free to turn on an axis, and located in an magnetic field B created by an arrangement of permanent magnets. With the current and field directions as shown, which way will the coil rotate?A: CW B: CCWC: the coil won't rotate when at this particular orientationaxisB BIBAF-10 A solenoid has an increasing current causing an increasing B-field in its interior. An end-on view of the solenoid is shown below. An electron is directly below the solenoid. While the current I in the solenoid is increasing, what is the direction of the force on the electron?Hint: What is the direction of the E-field at the position of the electron? Think Lenz's Law.F-11 A long solenoid of radius R contains a uniform magnetic field B which is increasing at a steady rate [B(t) = A t, where A is a constant]. For distances r < R from the center of the solenoid, how does the magnitude of the Electric field depend on r? Hint: E dlddtB da   z ze jA: E = zeroB: E  1/rC: E  rD: E  r2E: E  r3B(in)ABDCelectronR r


View Full Document

CU-Boulder PHYS 1120 - Faraday CT's

Documents in this Course
Circuits

Circuits

18 pages

Circuits

Circuits

10 pages

Review

Review

8 pages

Vectors

Vectors

6 pages

Vectors

Vectors

6 pages

Magnetism

Magnetism

17 pages

Questions

Questions

13 pages

Magnetism

Magnetism

22 pages

Questions

Questions

24 pages

Answers

Answers

12 pages

Optics

Optics

24 pages

Circuits

Circuits

11 pages

Questions

Questions

20 pages

Voltage

Voltage

9 pages

Questions

Questions

19 pages

Review

Review

57 pages

Inductors

Inductors

22 pages

Questions

Questions

10 pages

Questions

Questions

10 pages

Questions

Questions

12 pages

Load more
Download Faraday CT's
Our administrator received your request to download this document. We will send you the file to your email shortly.
Loading Unlocking...
Login

Join to view Faraday CT's and access 3M+ class-specific study document.

or
We will never post anything without your permission.
Don't have an account?
Sign Up

Join to view Faraday CT's 2 2 and access 3M+ class-specific study document.

or

By creating an account you agree to our Privacy Policy and Terms Of Use

Already a member?