Homework Answers
# The direction of the B field is perpendicularly downward to the page.
# since the current on the wire is constant so the induced magnetic field is also constant and the effective area of the loop is not changing. So magnetic flux is not changing .we know that constant magnetic flux does not induced any e.m.f as well as current. So their will be no induced current in the loop.
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CH23 P1Ver7 Please selected the proper direction of the induced B-field. The current in the wire...
CHP ve Mease selected the proper direction of the induced - The Direction of the induced...
CHP ve Mease selected the proper direction of the induced - The Direction of the induced Belt IN giver Direction of the induced in current there is any No anwervel MacBook Air
4. Determine the direction of the induced current in the wire loops concentric with the current...
4. Determine the direction of the induced current in the wire loops concentric with the current carrying loop. Show the direction of the B-field created by the current carrying wire. (4 pts) a. Current in the inner loop is decreasing. b. Current in the outer loop is increasing
Indicate the direction of the induced current in each of the situations show bellow, or "none"...
Indicate the direction of the induced current in each of the
situations show bellow, or "none" if there isn't any. You may wish
to make note of your thought process by which you arrive at your
answer in the event that your answer is incorrect such that you
might still receive some partial credit. It may also help to
clarify your answer if you copy each diagram or print the whole
page and draw the direction of the induced current...
For direction questions the choices are: into page, out of page, clockwise, counterclockwise, or no induced...
For direction questions the choices are:
into page, out of page, clockwise, counterclockwise, or no induced
field. Letters (m), (n), (q) and (r) have choices: up, down, left,
right, into page, out of page, or no induced field. The change in
flux is either increasing, decreasing, or constant. Thank you for
your help!
Considering the three situations below, fill in the tables. 1: This hexagonal loop of wire is in a uniform magnetic field; at t = 0 s, the...
3. A current is induced in a loop of wire shown. Also shown is Knowing that...
3. A current is induced in a loop of wire shown. Also shown is Knowing that the induced magnetic field was created by a decreasing external magnetic fielod a) Draw the direction of the induced current on the loop b) Is the external magnetic field going into or out of the page?
What is the direction of the induced current in the loop?
What is the direction of the induced current in the loop?
Please answer using Lenz's Law and explain the direction for each
criterion.What is the direction of the induced current in the loop? A clockwiseB counterclockwise111C no current(a) Motion of magnet causes increasing downward flux through loop. How to use Lenz's law? (c) Motion of magnet causes decreasing downward flux through loop.
A long wire carries a current in the direction shown above. The current I varies linearly with time t as follows: I-ct, where c is a positive constant. The long wire is in the same plane as a...
A long wire carries a current in the direction shown above. The current I varies linearly with time t as follows: I=ct, where c is a positive constant. The long wire is in the same plane as a square loop of wire of side b, as shown in the diagram. The side of the loop nearest the long wire is parallel to it and a distance a from it. The loop has a resistance R and is fixed in space. a. Determine...
For each case shown below, indicate the direction of the induced current in the wire loop....
For each case shown below,
indicate the direction of the induced current in the wire loop. A
velocity vector drawn near the magnet indicates that the magnet is
moving, and a velocity vector drawn near the loop indicates that
the loop is moving.
If a bar magnet is falling through a loop of wire, the induced current in the...
If a bar magnet is falling through a loop of wire, the induced current in the loop of wire sets up a field which exerts a force on the magnet. This force between the magnet and the loop will be repulsive when: A. the magnet enters the loop B. the magnet is halfway through C. the magnet is leaving the loop D. never Please provide an explanation!
CHP ve Mease selected the proper direction of the induced - The Direction of the induced Belt IN giver Direction of the induced in current there is any No anwervel MacBook Air
4. Determine the direction of the induced current in the wire loops concentric with the current carrying loop. Show the direction of the B-field created by the current carrying wire. (4 pts) a. Current in the inner loop is decreasing. b. Current in the outer loop is increasing
Indicate the direction of the induced current in each of the
situations show bellow, or "none" if there isn't any. You may wish
to make note of your thought process by which you arrive at your
answer in the event that your answer is incorrect such that you
might still receive some partial credit. It may also help to
clarify your answer if you copy each diagram or print the whole
page and draw the direction of the induced current...
For direction questions the choices are:
into page, out of page, clockwise, counterclockwise, or no induced
field. Letters (m), (n), (q) and (r) have choices: up, down, left,
right, into page, out of page, or no induced field. The change in
flux is either increasing, decreasing, or constant. Thank you for
your help!
Considering the three situations below, fill in the tables. 1: This hexagonal loop of wire is in a uniform magnetic field; at t = 0 s, the...
3. A current is induced in a loop of wire shown. Also shown is Knowing that the induced magnetic field was created by a decreasing external magnetic fielod a) Draw the direction of the induced current on the loop b) Is the external magnetic field going into or out of the page?
For each case shown below,
indicate the direction of the induced current in the wire loop. A
velocity vector drawn near the magnet indicates that the magnet is
moving, and a velocity vector drawn near the loop indicates that
the loop is moving.
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