QQuestionAnatomy and Physiology
QuestionAnatomy and Physiology
Problem 4.
A rectangular coil containing 20 loops (turns) is moving with a constant speed of $5.00 \mathrm{~cm} / \mathrm{s}$ toward a region containing a uniform magnetic field of 3.00 T pointing into the page. The dimensions of the coil are $a=$ 8.00 cm and $b= 12.0 \mathrm{~cm}$. The coil has a total resistance of $8.00 \Omega$.
(a) Consider four different situations: the coil is completely outside the field, half the coil has entered the field, the coil is entirely within the field, $75 \%$ of the coil has exited the field. In each of the four situations, determine the induced emf and induced current in the coil. If the current is non-zero, use Lenz's law to determine if it is clockwise or counterclockwise.
(b) Compare the situation when half the coil has entered the field to the one when only $25 \%$ of it has entered the field. Explain why the induced emf is the same in both cases.
Attachments
6 months agoReport content
Answer
Full Solution Locked
Sign in to view the complete step-by-step solution and unlock all study resources.
Step 1Let's solve this problem step by step:
- Total resistance: $$R = 8.00 \Omega
Given information: - Number of loops: 20
Step 2: Calculate the Area of the Coil
- Area of the coil: $$A = a \times b = (8.00 \times 10^{-2} \mathrm{m}) \times (12.0 \times 10^{-2} \mathrm{m}) = 9.60 \times 10^{-3} \mathrm{m}^{2}
Final Answer
See the detailed calculations in Step 3, which show the induced EMF and current for each situation, along with the direction of current based on Lenz's law.
Need Help with Homework?
Stuck on a difficult problem? We've got you covered:
- Post your question or upload an image
- Get instant step-by-step solutions
- Learn from our AI and community of students