![Magnetic flux flow due to the transformer winding phase A excitation... | Download Scientific Diagram Magnetic flux flow due to the transformer winding phase A excitation... | Download Scientific Diagram](https://www.researchgate.net/profile/Mohammad-Salay-Naderi/publication/239607867/figure/fig2/AS:298714552913925@1448230507489/Magnetic-flux-flow-due-to-the-transformer-winding-phase-A-excitation-when-the-disc-to.png)
Magnetic flux flow due to the transformer winding phase A excitation... | Download Scientific Diagram
![File:Tidal Disruption and Magnetic Flux Capture- Fig.8 - velocity flow field.webm - Wikimedia Commons File:Tidal Disruption and Magnetic Flux Capture- Fig.8 - velocity flow field.webm - Wikimedia Commons](https://upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Tidal_Disruption_and_Magnetic_Flux_Capture-_Fig.8_-_velocity_flow_field.webm/1920px--Tidal_Disruption_and_Magnetic_Flux_Capture-_Fig.8_-_velocity_flow_field.webm.jpg)
File:Tidal Disruption and Magnetic Flux Capture- Fig.8 - velocity flow field.webm - Wikimedia Commons
![A d-c current I = 10 (A) flow in a triangular loop in the xy-plane as in Fig. 5-32. Assuming a uniform magnetic flux density B= ay 6 ( mT ) in A d-c current I = 10 (A) flow in a triangular loop in the xy-plane as in Fig. 5-32. Assuming a uniform magnetic flux density B= ay 6 ( mT ) in](https://holooly.com/wp-content/uploads/2020/12/1-78.png)
A d-c current I = 10 (A) flow in a triangular loop in the xy-plane as in Fig. 5-32. Assuming a uniform magnetic flux density B= ay 6 ( mT ) in
![Proposal of two‐dimensional magnetic field analysis model for transverse magnetic flux type linear synchronous motor - Nakatsugawa - 2020 - Electrical Engineering in Japan - Wiley Online Library Proposal of two‐dimensional magnetic field analysis model for transverse magnetic flux type linear synchronous motor - Nakatsugawa - 2020 - Electrical Engineering in Japan - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/27005a88-fbb4-4f6d-9b65-15e800caf8d3/eej23264-fig-0001-m.jpg)