Please answer ALL parts with choices provided and only if you are confident answ

Question

Please answer ALL parts with choices provided and only if you are confident answers are correct. will rate 5 STARS to correct answers!! thanks :)

choices for:

a) clockwise, counterclockwise, no current at this time

b) into the page, out of the page, clockwise, counterclockwise

c) increasing, decreasing, flux is constant at this time

d) into the page, out of the page, clockwise, counterclockwise, no induced magnetic field at this time

e) into the page, out of the page, clockwise, counterclockwise, no induced current at this time

choices for:

a) clockwise, counterclockwise, no current at this time

b) into the page, out of the page, clockwise, counterclockwise

c) increasing, decreasing, flux is constant at this time

d) into the page, out of the page, clockwise, counterclockwise, no induced magnetic field at this time

e) into the page, out of the page, clockwise, counterclockwise, no induced current at this time

(k) raised: clockwise, counterclockwise, no current at this time
moved left: clockwise, counterclockwise, no current at this time

(m) raised: up (towards top of page), down (towards bottom of page), into page, out of page, left, right
moved left: up (towards top of page), down (towards bottom of page), into page, out of page, left, right

(o) raised: increasing, decreasing, flux is constant
moved left: increasing, decreasing, flux is constant

(q) raised: up (towards top of page), down (towards bottom of page), into page, out of page, left, right, no magnetic field
moved left: up (towards top of page), down (towards bottom of page), into page, out of page, left, right, no magnetic field

(s) raised: clockwise, counter clockwise, no induced current
moved left: clockwise, counter clockwise, no induced current

This triangular loop of wire is in a uniform magnetic field; at t = 0 s, the field begins increasing at a rate of 43 T/s: Direction of the Current through the loop before t = 0 s Direction of the Original Magnetic Field (the field not created by any current in the loop) Change in magnetic flux for loop after t = Os Direction of the Induced Magnetic Field after t = Os Direction of the Induced Current through the loop after t = 0 s This hexagonal loop of wire is in a uniform magnetic field; at t = 0 s, the field begins decreasing at a rate of 48 T/s: Direction of the Current through the loop before t = 0 s Direction of the Original Magnetic Field (the field not created by any current in the loop) Change in magnetic flux for loop after t = 0s Direction of the Induced Magnetic Field after t = 0 s Direction of the Induced Current through the loop after t = 0 s The figure shows a side view of a loop of wire with a bar magnet near but below the loop. The bar magnet's north pole is aimed up (towards the loop). At t = 0 s, the magnet is moved; it is either raised or moved left. Direction of the Current (viewed from above) through the loop before t = 0s Direction of the Original Magnetic Field

Explanation / Answer

d) into the page, out of the page, clockwise, counterclockwise, no induced magnetic field at this time

e) into the page, out of the page, clockwise, counterclockwise, no induced current at this time

(q) raised: up (towards top of page), down (towards bottom of page), into page, out of page, left, right, no magnetic field
moved left: up (towards top of page), down (towards bottom of page), into page, out of page, left, right, no magnetic field

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