You have a small sample of pure copper metal sitting on your desk and you slowly bring a very strong permanent magnet close to it. What happens to the copper sample? O The magnet has no effect on the copper O The South pole of the magnet repels the copper, but the North pole attracts it The North pole of the magnet repels the copper, but the South pole attracts it O It feels a repulsive force due to the magnet O It feels an attractive force due to the magnet
You have a small sample of pure copper metal sitting on your desk and you slowly bring a very strong permanent magnet close to it. What happens to the copper sample? O The magnet has no effect on the copper O The South pole of the magnet repels the copper, but the North pole attracts it The North pole of the magnet repels the copper, but the South pole attracts it O It feels a repulsive force due to the magnet O It feels an attractive force due to the magnet
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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![**Question**:
You have a small sample of pure copper metal sitting on your desk and you slowly bring a very strong permanent magnet close to it. What happens to the copper sample?
**Options**:
- ○ The magnet has no effect on the copper
- ○ The South pole of the magnet repels the copper, but the North pole attracts it
- ○ The North pole of the magnet repels the copper, but the South pole attracts it
- ● It feels a repulsive force due to the magnet
- ○ It feels an attractive force due to the magnet
**Explanation**:
This question is designed to assess knowledge of the interaction between magnetic fields and non-magnetic materials such as copper. The correct answer is highlighted ("It feels a repulsive force due to the magnet"). Copper is not ferromagnetic, meaning it does not have a strong attraction to magnets. However, when a magnet moves near copper, it does induce a weak repulsive force due to eddy currents. This is a demonstration of electromagnetic induction where moving magnetic fields create circulating currents in conductive materials, generating an opposing magnetic field and causing the repulsion.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe09d4462-f34d-4530-ac40-5ce52271c7b7%2Fb11f18c1-6e91-4844-9578-3d5f28f89515%2Fl35azue_processed.png&w=3840&q=75)
Transcribed Image Text:**Question**:
You have a small sample of pure copper metal sitting on your desk and you slowly bring a very strong permanent magnet close to it. What happens to the copper sample?
**Options**:
- ○ The magnet has no effect on the copper
- ○ The South pole of the magnet repels the copper, but the North pole attracts it
- ○ The North pole of the magnet repels the copper, but the South pole attracts it
- ● It feels a repulsive force due to the magnet
- ○ It feels an attractive force due to the magnet
**Explanation**:
This question is designed to assess knowledge of the interaction between magnetic fields and non-magnetic materials such as copper. The correct answer is highlighted ("It feels a repulsive force due to the magnet"). Copper is not ferromagnetic, meaning it does not have a strong attraction to magnets. However, when a magnet moves near copper, it does induce a weak repulsive force due to eddy currents. This is a demonstration of electromagnetic induction where moving magnetic fields create circulating currents in conductive materials, generating an opposing magnetic field and causing the repulsion.
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