A rectangular loop of wire is pushed to the right, into a region containing a uniform magnetic field that points into the page, as shown below. (a) Which scenario below will have the greater induced voltage at any given moment? Briefly explain your reasoning. pushing the loop rapidly pushing the loop slowly Both will cause the same induced voltage in the loop. (b) Which scenario below will have the greatest induced voltage at any given moment? Briefly explain your reasoning. The width of the loop pushed into the region that contains the magnetic field is W = 1 m. • The width of the loop pushed into the region that contains the magnetic field is W = 2 m. • Both scenarios above will have the same induced voltage in the loop. (c) Which scenario below will have the greatest induced voltage? Briefly explain your reasoning. The moment that 25% of the loop is in the region containing the magnetic field (and 75% of the loop is not yet in the region containing the magnetic field). The moment that 75% of the loop is in the region containing the magnetic field (and 25% of the loop is not yet in the region containing the magnetic field). Both scenarios above will have the same induced voltage in the loop. (d) Will the current flow upward or downward through the resistor?

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  1. A rectangular loop of wire is pushed to the right, into a region containing a uniform magnetic field that points into the page, as shown below. 

(a) Which scenario below will have the greater induced voltage at any given moment? Briefly explain your reasoning. 

  • pushing the loop rapidly 
  • pushing the loop slowly 
  • Both will cause the same induced voltage in the loop. 

(b) Which scenario below will have the greatest induced voltage at any given moment? Briefly explain your reasoning. 

  • The width of the loop pushed into the region that contains the magnetic field is W = 1 m. The width of the loop pushed into the region that contains the magnetic field is W = 2 m. Both scenarios above will have the same induced voltage in the loop. 

(c) Which scenario below will have the greatest induced voltage? Briefly explain your reasoning. 

  • The moment that 25% of the loop is in the region containing the magnetic field (and 75% of the loop is not yet in the region containing the magnetic field). 
  • The moment that 75% of the loop is in the region containing the magnetic field (and 25% of the loop is not yet in the region containing the magnetic field). 
  • Both scenarios above will have the same induced voltage in the loop. 

(d) Will the current flow upward or downward through the resistor?

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Transcribed Image Text:A Dashboard M Inbox (26) - jmott3@n X b Answered: A circular c x E Untitled document - CX O Mental Health Probler x W Essay on Drug Addicti x G how to write a conclus x i docs.google.com/document/d/1trdhrnPyg5ihhFhuWS3BuiTIF1dSd9SDFWjqQ8FmrkE/edit Untitled document A Share J File Edit View Insert Format Tools Add-ons Help Last edit was seconds ago 100% Normal text Arial В IU А E E X Editing 10.9 + 31 1 2 | II 3 I|I 5 | 6 + L W 10 ohms 2. 3. > 5:56 PM O Type here to search 日 5/7/2021 ... lıli
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