Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal?
My neighbor collects (moderns) and I gave a matched date pair of Ikes to him for Xmas . One reg. and one shrunken. Don't lose sight of the fact that you can send your UHRs in to be shrunk too.
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
Outstanding question! My wager is that since no metal is "lost" during the process, yes, the SG of the metal must be higher now.
But, an even better question....are they still legal tender???
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
Outstanding question! My wager is that since no metal is "lost" during the process, yes, the SG of the metal must be higher now.
But, an even better question....are they still legal tender??? >>
Since the weight/mass doesn't change and the size/volume does, then it stands to reason that density [which is defined as mass per unit of volume] does change. Since the weight of each is the same you probably wouldn't notice it.
<< <i>So does it change the density of the coin's metal? >>
The density change would be very small, the equivalent of density changes from additional work hardening of metal that has been previously work hardened during the strike. Actually, the heat generated could have an annealing effect that can slightly decrease the density of the metal.
Temperature changes can slightly change the density of metal, depending on the coefficient of thermal expansion for the metal. Work hardening and annealing density changes are less than thermal changes.
The coins increase in thickness, but the specific gravity change would be nearly immeasurable.
Robert Scot: Engraving Liberty - biography of US Mint's first chief engraver
I wonder with the science behind it if you shrink a silver coin down are you loosing silver content since its in a smaller coin now. or is the silver just more compact into a smaller area. Im sure its the same unless electrons were removed during the magnetic shrinking but i was just wondering.
Founder of the NDCCA. *WAM Count : 025. *NDCCA Database Count : 2,610. *You suck 6/24/10. In memory of Tiggar 5/21/1994 - 5/28/2010
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
No, the density of a metal is a basic elemental property that cannot change appreciably. I haven't seen one of these but I would say it is thicker. The forces try to push everything toward the center and the forces are greater as you get farther from the center. So each element of the coin gets moved toward the center by a force proportional to it's distance from the center (probably some exponent of r but I don't recall). So as it gets pushed toward the center it gets thicker. --Jerry
I had this done a few years ago while they were still cheap ($12) and I wanted one from 1997. I think the higher denominations will be too thick to properly fit into a slab. Maybe?
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
No, the density of a metal is a basic elemental property that cannot change appreciably. I haven't seen one of these but I would say it is thicker. The forces try to push everything toward the center and the forces are greater as you get farther from the center. So each element of the coin gets moved toward the center by a force proportional to it's distance from the center (probably some exponent of r but I don't recall). So as it gets pushed toward the center it gets thicker. --Jerry >>
The ebay description says its thicker, but I wonder why they don't show an edge shot. So if the volume doesn't change then of course density doesn't either.
<< <i>As the coin shrinks in diameter, it becomes correspondingly thicker, so a shrunken coin still retains the same mass, volume, and density as the original coin. The amount of “shrinkage” depends on the applied energy – a higher energy pulse results in a smaller coin. >>
Comments
<< <i>Is this for real? >>
It is real. I know 'cause I have one that was shruck with a Tesla Coil.
<< <i>Bert Hickman's TeslaMania Web Site >>
I got an error going to this site.
Try this one.
--Severian the Lame
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal?
Franklin-Lover's Forum
Michael Kittle Rare Coins --- 1908-S Indian Head Cent Grading Set --- No. 1 1909 Mint Set --- Kittlecoins on Facebook --- Long Beach Table 448
<< <i>Very cool. Send it in to see if they'd put it in a genuine slab >>
That might be a vewry cool idea!!! I have a Morgan that they did about 8 years ago!!
<< <i>
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
Outstanding question! My wager is that since no metal is "lost" during the process, yes, the SG of the metal must be higher now.
But, an even better question....are they still legal tender???
Zapped and shrunk
I have one... forget what it is.
I think there is a rule, this topic must be resuraected every 18 months.....
<< <i>
<< <i>
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
Outstanding question! My wager is that since no metal is "lost" during the process, yes, the SG of the metal must be higher now.
But, an even better question....are they still legal tender??? >>
Since the weight/mass doesn't change and the size/volume does, then it stands to reason that density [which is defined as mass per unit of volume] does change. Since the weight of each is the same you probably wouldn't notice it.
MY COINS FOR SALE AT https://www.pcgs.com/setregistry/collectors-showcase/other/bajjerfans-coins-sale/3876
<< <i>So does it change the density of the coin's metal? >>
The density change would be very small, the equivalent of density changes from additional work hardening of metal that has been previously work hardened during the strike. Actually, the heat generated could have an annealing effect that can slightly decrease the density of the metal.
Temperature changes can slightly change the density of metal, depending on the coefficient of thermal expansion for the metal. Work hardening and annealing density changes are less than thermal changes.
The coins increase in thickness, but the specific gravity change would be nearly immeasurable.
<< <i>
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
No, the density of a metal is a basic elemental property that cannot change appreciably. I haven't seen one of these but I would say it is thicker. The forces try to push everything toward the center and the forces are greater as you get farther from the center. So each element of the coin gets moved toward the center by a force proportional to it's distance from the center (probably some exponent of r but I don't recall). So as it gets pushed toward the center it gets thicker. --Jerry
The name is LEE!
I had this done a few years ago while they were still cheap ($12) and I wanted one from 1997. I think the higher denominations will be too thick to properly fit into a slab. Maybe?
"Keep your malarkey filter in good operating order" -Walter Breen
<< <i>
<< <i>
<< <i>Tesla coils are the technology that has been researched since I was in Nuclear Engineering Grad school in the early 80s to confine the fusion reaction. There are huge forces generated. The amazing thing is how then can be balanced so evenly to uniformly collapse the coins. --Jerry >>
So does it change the density of the coin's metal? >>
No, the density of a metal is a basic elemental property that cannot change appreciably. I haven't seen one of these but I would say it is thicker. The forces try to push everything toward the center and the forces are greater as you get farther from the center. So each element of the coin gets moved toward the center by a force proportional to it's distance from the center (probably some exponent of r but I don't recall). So as it gets pushed toward the center it gets thicker. --Jerry >>
The ebay description says its thicker, but I wonder why they don't show an edge shot. So if the volume doesn't change then of course density doesn't either.
MY COINS FOR SALE AT https://www.pcgs.com/setregistry/collectors-showcase/other/bajjerfans-coins-sale/3876
And for those of you awaiting an answer.... I checked. My coin is a Mississippi State Quarter.
<< <i>As the coin shrinks in diameter, it becomes correspondingly thicker, so a shrunken coin still retains the same mass, volume, and density as the original coin. The amount of “shrinkage” depends on the applied energy – a higher energy pulse results in a smaller coin. >>
Does the shruken ASE shown still weigh 31.1 grams?
EDIT: How about stretching an ASE to the dia. of 5"?
Looking for Top Pop Mercury Dime Varieties & High Grade Mercury Dime Toners.
Agreed. There is no loss of metal, weight is the same.
Back when Bert was first selling these he agreed to shrink some coins I sent him. I had him do a Walker, JFK and maybe something else.