This time the loop has constant area 0.780 m^2, and the magnetic field has constant strength 0.550 T. This time we re going to achieve an induced voltage 0.278 V by rotating the loop through a 90 degree angle. How much time must it take for the loop to complete this 90 degree turn?     2.16 s     1.54 s     0.77 s     1.23 s

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Chapter1: Units, Trigonometry. And Vectors
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5. This time the loop has constant area 0.780 m^2, and the magnetic field has constant strength 0.550 T. This time we re going to achieve an induced voltage 0.278 V by rotating the loop through a 90 degree angle. How much time must it take for the loop to complete this 90 degree turn?

   
2.16 s
   
1.54 s
   
0.77 s
   
1.23 s

 

The image depicts a cross-sectional representation of a wire loop carrying an electric current \( I \), illustrated by an arrow moving clockwise. This loop is situated within a uniform magnetic field, designated as \(\vec{B}_{out}\), with the direction of the field indicated by the arrangement of dots. These dots suggest that the magnetic field is oriented out of the plane, coming towards the viewer.

The circular loop, through which the current \( I \) flows, creates its own magnetic field. According to the right-hand rule, if the fingers of the right hand follow the direction of the current, the thumb would point in the direction of the magnetic field inside the loop.

Key elements:
- Circular loop with a current \( I \) moving in a clockwise direction.
- Uniform magnetic field \(\vec{B}_{out}\), indicated by dots, points outwards.
- Interaction between the current and the magnetic field can lead to phenomena such as electromagnetic induction, depending on the dynamics involved.
Transcribed Image Text:The image depicts a cross-sectional representation of a wire loop carrying an electric current \( I \), illustrated by an arrow moving clockwise. This loop is situated within a uniform magnetic field, designated as \(\vec{B}_{out}\), with the direction of the field indicated by the arrangement of dots. These dots suggest that the magnetic field is oriented out of the plane, coming towards the viewer. The circular loop, through which the current \( I \) flows, creates its own magnetic field. According to the right-hand rule, if the fingers of the right hand follow the direction of the current, the thumb would point in the direction of the magnetic field inside the loop. Key elements: - Circular loop with a current \( I \) moving in a clockwise direction. - Uniform magnetic field \(\vec{B}_{out}\), indicated by dots, points outwards. - Interaction between the current and the magnetic field can lead to phenomena such as electromagnetic induction, depending on the dynamics involved.
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