A few tips to go faster. Seperate the contact strip from thr magnet strip and slightly advance them with sections. It will help advance the timing as it goes faster especially toward the end. Also you could cut down on back emf /arcs if there was a break between the alternating contacts that shorted the coil together. Just some tips that I have seen others employ. You did great though. Awesome project.
@WonderMaker66 you want to short the 2 terminals of the coil before switching the poles. So the contacts should be + then short then - then short then + you get the idea. After the coil breaks contact it needs to be shorted together to kill off the back field
This is indeed possible, but I need to leave time for the short circuit. Instead of this, it would be faster to eliminate the electromotive force by directly charging in the reverse direction. Ensure as much charging time as possible.
Well, I don't need all the 3D models, I would appreciate it if you would send only a part of the engine (acceleration racks). Those that are mounted on an aluminum profile
A few tips to go faster. Seperate the contact strip from thr magnet strip and slightly advance them with sections. It will help advance the timing as it goes faster especially toward the end. Also you could cut down on back emf /arcs if there was a break between the alternating contacts that shorted the coil together. Just some tips that I have seen others employ. You did great though. Awesome project.
I understand the above and have been improving it. But how to reduce the reverse electromotive force?
@WonderMaker66 you want to short the 2 terminals of the coil before switching the poles. So the contacts should be + then short then - then short then + you get the idea. After the coil breaks contact it needs to be shorted together to kill off the back field
This is indeed possible, but I need to leave time for the short circuit. Instead of this, it would be faster to eliminate the electromotive force by directly charging in the reverse direction. Ensure as much charging time as possible.
The next version will be 100m/s lol. Good job on the project. I can't wait to see version 2.
100m/s may not be achievable, but doubling the speed is possible
Well built, maybe graphite under or a magnetic rail along the bottom and a magnet under the lil container to get rid of any friction
In the next version, I will use rolling friction instead of sliding friction. I hope to increase the speed even higher, but I am not sure.
Pretty good!
ขอบคุณมากครับกับสาระดีๆ
I'm glad you got something.
Hi, I really liked your video and I'm excited about this idea. Could you please leave the 3d models that you used, it would be very useful for me.
The stl format, if possible
There are too many models and they have not been sorted out yet. And as a work of art it is still too rough.
Well, I don't need all the 3D models, I would appreciate it if you would send only a part of the engine (acceleration racks). Those that are mounted on an aluminum profile
I mean the final version, of course.
@WonderMaker66?
amazing.
Wonderful !!!!!!!!!!!!!
🇵🇰
100 sounds like such a high number until you realize its km
You can think of it like a speeding car
How can i contact you can you leave wechat or something?
Do you have anything to ask me? You can send me an email at jiangenze1985@126.com
Bro ditch the TTS and narrate yourself. This is horrible to listen to.
You're not the first to say that... Well, I'll try to break through myself
hello how u made