Show off your Magnets! 🧲 TiTAN + xG3 v1 + v2 Gallery

It’s a custom flexnext

I do have some electromagnets at home for very secret projects bot not that big :sweat_smile:

Yes, the electronics are dead but it has some wild glow :star2:

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I agree, it looks awesome!

That’s both surprising and tempting at the same time.

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:tornado::face_with_spiral_eyes:

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I was cleaning out my Google photos and came across this video from March 2022. I’m pretty sure I never posted it here. Found a magnetic stirrer in an abandoned area of a mill I was working in and knew what I had to do. That’s an xG3v1 in my left hand middle finger.

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Oh my lordy… is it doing full revolutions?

No, it’s moving back and forth like a seesaw.

it felt like its going to rip the magnet out

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AWWWWW, I didn’t even know that was a thing…
I feel like I am missing out!

Is there a secret handshake?

giphy (10)

Are you in a social bowling league?

Is there a club motto?

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its not nearly as cool of a secret handshake as the blinky winky club

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Less a handshake and more of a greeting :slight_smile:

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good-point-matt

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IMG_0039

As a long standing member, even all hands on deck meetings are sparse. We need to allocate more budget to recruiting…

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phrasing-hey

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We dont even have a icon/emogi react thingy :disappointed_relieved:

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Forgive me for the dumb question but don’t strong magnets reduce the life of the implants considerably or am I mistaken?

Video looks cool though!

No, magnets only temporarily reduce performance as they magnetize the ferrite core used in the antennas of x-series implants. But, as the magnetic bias fades, full performance returns.

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Oh awesome thanks!

Rereading my message I realized that it was worded poorly, what I meant to ask is will exposing an implanted magnet to a much stronger magnet not weaken the implanted one?

Oh I see… well there is a difference between practical changes vs absolute changes. Magnets do lose strength for a number of reasons, including extreme heat, physical impacts (literal jostling of atomic alignment), and exposure to opposing fields (N to N or S to S).

However, those losses are imperceptible for an implant because you can’t heat it to dangerous levels without burning your tissue, you can’t smash it hard enough to cause detectable losses without destroying your surrounding tissue, and you can’t expose it to a strong enough opposing field without causing it to flip over to the opposite pole and rip out of your tissue.

Fun!

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Lol that’s awsome! Thank you for taking the time to explain!

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Reason for this placement above…

Comes in handy when doing things like updating from where on your 3-D printer!

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