part 1- What is the magnetic force on the top side? If the magnetic force is in the −y-direction, enter a negative value. Answer in units of N. Part 2- What is the magnetic force on the bottom side? If the magnetic force is in the −y-direction, enter a negative value. Answer in units of N. Part 3-What is the magnetic force on the left side? If the magnetic force is in the −x-direction, enter a negative value. Answer in units of N. Part 4- What is the magnetic force on the right side? If the magnetic force is in the −x-direction, enter a negative value. Answer in units of N. Part 5- What is the net magnetic force on the loop? Answer in units of N.

part 1- What is the magnetic force on the top side? If the magnetic force is in the −y-direction, enter a negative value. Answer in units of N. Part 2- What is the magnetic force on the bottom side? If the magnetic force is in the −y-direction, enter a negative value. Answer in units of N. Part 3-What is the magnetic force on the left side? If the magnetic force is in the −x-direction, enter a negative value. Answer in units of N. Part 4- What is the magnetic force on the right side? If the magnetic force is in the −x-direction, enter a negative value. Answer in units of N. Part 5- What is the net magnetic force on the loop? Answer in units of N.

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Question

part 1- What is the magnetic force on the top side? If the magnetic force is in the −y-direction, enter a negative value. Answer in units of N.

Part 2- What is the magnetic force on the bottom side? If the magnetic force is in the −y-direction, enter a negative value. Answer in units of N.

Part 3-What is the magnetic force on the left side? If the magnetic force is in the −x-direction, enter a negative value. Answer in units of N.

Part 4- What is the magnetic force on the right side? If the magnetic force is in the −x-direction, enter a negative value. Answer in units of N.

Part 5- What is the net magnetic force on the loop? Answer in units of N.

!
Required information
A 22.9 cm x 29.5 cm rectangular loop of wire carries 1.00 A of current
clockwise around the loop. The magnetic field is 2.70 T out of the page.
4₂
I=1.00 A
R cm-
Qcm
where Q = 22.9 cm and R = 29.5 cm.

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