![A square coil is placed in a uniform magnetic field. If it is rotated about axis 1, 2, 3 or 4 with a same constant angular velocity, the amplitude of EMF generated A square coil is placed in a uniform magnetic field. If it is rotated about axis 1, 2, 3 or 4 with a same constant angular velocity, the amplitude of EMF generated](https://search-static.byjusweb.com/question-images/toppr_ext/questions/74128.png)
A square coil is placed in a uniform magnetic field. If it is rotated about axis 1, 2, 3 or 4 with a same constant angular velocity, the amplitude of EMF generated
![WEVJ | Free Full-Text | Research on Coil Identification Algorithm of Wireless Power Transfer System Based on Magnetic Field Features WEVJ | Free Full-Text | Research on Coil Identification Algorithm of Wireless Power Transfer System Based on Magnetic Field Features](https://pub.mdpi-res.com/wevj/wevj-12-00140/article_deploy/html/images/wevj-12-00140-g002.png?1632389537)
WEVJ | Free Full-Text | Research on Coil Identification Algorithm of Wireless Power Transfer System Based on Magnetic Field Features
![This diagram shows a square coil about to enter a region of uniform magnetic field of magnetic flux density 030TThe magnetic field is at right angles to the plane of the coil This diagram shows a square coil about to enter a region of uniform magnetic field of magnetic flux density 030TThe magnetic field is at right angles to the plane of the coil](https://sss.embibe.com/content-grail/preprod/5c940eeb-dd95-471a-9e42-7c2078ec18f2.png)
This diagram shows a square coil about to enter a region of uniform magnetic field of magnetic flux density 030TThe magnetic field is at right angles to the plane of the coil
![Comparison between circular and square loops for low‐frequency magnetic resonance applications: theoretical performance estimation - Giovannetti - 2016 - Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering - Wiley Online Library Comparison between circular and square loops for low‐frequency magnetic resonance applications: theoretical performance estimation - Giovannetti - 2016 - Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/1847b5ea-63aa-4836-828e-33c4aaef9b47/cmrb21343-fig-0007-m.jpg)
Comparison between circular and square loops for low‐frequency magnetic resonance applications: theoretical performance estimation - Giovannetti - 2016 - Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering - Wiley Online Library
What is the total force on the current carrying rectangular coil when it is placed in a uniform magnetic field? - Quora
![Calculation of the magnetic field of square-shaped coil. a) a side view... | Download Scientific Diagram Calculation of the magnetic field of square-shaped coil. a) a side view... | Download Scientific Diagram](https://www.researchgate.net/publication/26476889/figure/fig3/AS:340622356566024@1458222106652/Calculation-of-the-magnetic-field-of-square-shaped-coil-a-a-side-view-of-the-square.png)
Calculation of the magnetic field of square-shaped coil. a) a side view... | Download Scientific Diagram
![GI - Tri-axial square Helmholtz coil system at the Alibag Magnetic Observatory: upgraded to a magnetic sensor calibration facility GI - Tri-axial square Helmholtz coil system at the Alibag Magnetic Observatory: upgraded to a magnetic sensor calibration facility](https://gi.copernicus.org/articles/7/143/2018/gi-7-143-2018-avatar-web.png)
GI - Tri-axial square Helmholtz coil system at the Alibag Magnetic Observatory: upgraded to a magnetic sensor calibration facility
![The figure shows a rotating square coll of wire with N = 11 turns immersed in a magnetic field of magnitude B = 0.126 T. The coil has sides of length d = The figure shows a rotating square coll of wire with N = 11 turns immersed in a magnetic field of magnitude B = 0.126 T. The coil has sides of length d =](https://homework.study.com/cimages/multimages/16/71693968000334757861943764.png)
The figure shows a rotating square coll of wire with N = 11 turns immersed in a magnetic field of magnitude B = 0.126 T. The coil has sides of length d =
![This diagram shows a square coil about to enter a region of uniform magnetic field of magnetic flux density 030TThe magnetic field is at right angles to the plane of the coil This diagram shows a square coil about to enter a region of uniform magnetic field of magnetic flux density 030TThe magnetic field is at right angles to the plane of the coil](https://sss.embibe.com/cdn-cgi/image/q=75,w=525,f=auto,fit=scale-down/https://sss.embibe.com/content-grail/preprod/14b3d926-9334-48df-b9fe-78e8f5186ab6.png)
This diagram shows a square coil about to enter a region of uniform magnetic field of magnetic flux density 030TThe magnetic field is at right angles to the plane of the coil
![Uniform magnetic field of the planar coil with new winding structure for displacement-insensitive WPT | Semantic Scholar Uniform magnetic field of the planar coil with new winding structure for displacement-insensitive WPT | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/d7cfdf2af31bf9edeff7e3450142f4e6e05b8375/2-Figure4-1.png)
Uniform magnetic field of the planar coil with new winding structure for displacement-insensitive WPT | Semantic Scholar
![Magnetic field at center of square loop (without calculus) | Biot savart law | Floatheadphyics - YouTube Magnetic field at center of square loop (without calculus) | Biot savart law | Floatheadphyics - YouTube](https://i.ytimg.com/vi/LYmDxPxGSrM/maxresdefault.jpg)