This video is commendable as it provides detailed and creative instructions on how to make a high-speed motor from screws. However, the video could have been more useful if it had more clearly explained how the engine works and how to test and calibrate it to achieve peak performance.
Your lathe-work is hurried in this soft steel, the finish could benefit from more passes with less depth of cut near the final dimension... however the demonstration of milling in a lathe is nicely straightforward, so you get my 👍 Continuous slip-rings at different distances from the winding instead of commuting contacts would make this a type of brushed synchronous AC motor, and in either case the permanent magnets can be replaced with stationary coils with additional cores. Replacing the permanent magnets with stationary field coils however (ideally with iron cores of their own) would turn this into a universal motor, a type of brushed motor that can run on AC, and spins the same direction for either DC polarity. The field coils are wired in series with the rotor, meaning the stationary magnetic field reverses when the input current does.
This video is commendable as it provides detailed and creative instructions on how to make a high-speed motor from screws.
However, the video could have been more useful if it had more clearly explained how the engine works and how to test and calibrate it to achieve peak performance.
Awesome👍👍👍👍👍
❤❤❤❤❤❤😊😊
Kewl ! Can/Will you make it brush-less ?
Good one
Your lathe-work is hurried in this soft steel, the finish could benefit from more passes with less depth of cut near the final dimension... however the demonstration of milling in a lathe is nicely straightforward, so you get my 👍
Continuous slip-rings at different distances from the winding instead of commuting contacts would make this a type of brushed synchronous AC motor, and in either case the permanent magnets can be replaced with stationary coils with additional cores.
Replacing the permanent magnets with stationary field coils however (ideally with iron cores of their own) would turn this into a universal motor, a type of brushed motor that can run on AC, and spins the same direction for either DC polarity. The field coils are wired in series with the rotor, meaning the stationary magnetic field reverses when the input current does.
Best for Physics Lab.
GOOD.
А алюминия замыкания?
))) Good.
i like it
Approximately 3 to 5 thousand RPM.
You can't use it
Çok gereksiz daha önce yapılmış motorun ayniz7ni yapma ahmakça