The figure below shows three edge views of a square loop with sides of length { = 0.315 m in a magnetic field of magnitude 1.75 T. Calculate the magnetic flux (in Wb) through the loop oriented perpendicular to the magnetic field, 60.0° from the magnetic field, and parallel to the magnetic field. 自陸陸 60.0° HINT (a) perpendicular to the magnetic field Wb (b) 60.0° from the magnetic field Wb (c) parallel to the magnetic field Wb
The figure below shows three edge views of a square loop with sides of length { = 0.315 m in a magnetic field of magnitude 1.75 T. Calculate the magnetic flux (in Wb) through the loop oriented perpendicular to the magnetic field, 60.0° from the magnetic field, and parallel to the magnetic field. 自陸陸 60.0° HINT (a) perpendicular to the magnetic field Wb (b) 60.0° from the magnetic field Wb (c) parallel to the magnetic field Wb
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![The figure below shows three edge views of a square loop with sides of length \(\ell = 0.315 \, \text{m}\) in a magnetic field of magnitude \(1.75 \, \text{T}\). Calculate the magnetic flux (in Wb) through the loop oriented perpendicular to the magnetic field, 60.0° from the magnetic field, and parallel to the magnetic field.
![Diagrams]
1. The first diagram shows the loop oriented perpendicular to the magnetic field. The magnetic field lines, represented by green arrows labeled \(\vec{B}\), pass through the loop.
2. The second diagram shows the loop oriented at an angle of 60.0° to the magnetic field. The magnetic field lines again are shown with green arrows, and the angle is depicted with the loop.
3. The third diagram displays the loop oriented parallel to the magnetic field. In this case, the loop lies flat, and the arrows indicate the magnetic field direction.
**HINT:**
(a) Perpendicular to the magnetic field
\[ \text{Flux:} \quad \underline{\hspace{4cm}} \, \text{Wb} \]
(b) 60.0° from the magnetic field
\[ \text{Flux:} \quad \underline{\hspace{4cm}} \, \text{Wb} \]
(c) Parallel to the magnetic field
\[ \text{Flux:} \quad \underline{\hspace{4cm}} \, \text{Wb} \]
These configurations are used to calculate the magnetic flux through the loop in different orientations relative to the magnetic field.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F021773a5-30bf-4026-94da-b5b931a87d69%2F42038e2e-c501-45be-af6b-3d8f3f2e8d96%2F6g3nrak_processed.png&w=3840&q=75)
Transcribed Image Text:The figure below shows three edge views of a square loop with sides of length \(\ell = 0.315 \, \text{m}\) in a magnetic field of magnitude \(1.75 \, \text{T}\). Calculate the magnetic flux (in Wb) through the loop oriented perpendicular to the magnetic field, 60.0° from the magnetic field, and parallel to the magnetic field.
![Diagrams]
1. The first diagram shows the loop oriented perpendicular to the magnetic field. The magnetic field lines, represented by green arrows labeled \(\vec{B}\), pass through the loop.
2. The second diagram shows the loop oriented at an angle of 60.0° to the magnetic field. The magnetic field lines again are shown with green arrows, and the angle is depicted with the loop.
3. The third diagram displays the loop oriented parallel to the magnetic field. In this case, the loop lies flat, and the arrows indicate the magnetic field direction.
**HINT:**
(a) Perpendicular to the magnetic field
\[ \text{Flux:} \quad \underline{\hspace{4cm}} \, \text{Wb} \]
(b) 60.0° from the magnetic field
\[ \text{Flux:} \quad \underline{\hspace{4cm}} \, \text{Wb} \]
(c) Parallel to the magnetic field
\[ \text{Flux:} \quad \underline{\hspace{4cm}} \, \text{Wb} \]
These configurations are used to calculate the magnetic flux through the loop in different orientations relative to the magnetic field.
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