If you have two equal magnets being brought together experience only one strangth of magnetism. Magnets don't get any strong even while closer in their two fields. Experiment and you will see.
On 29 Oct, 22:39, BURT <macromi...@yahoo.com> wrote:
> If you have two equal magnets being brought together experience only > one strangth of magnetism. Magnets don't get any strong even while > closer in their two fields. Experiment and you will see.
On Oct 29, 6:39 pm, BURT <macromi...@yahoo.com> wrote:
> If you have two equal magnets being brought together experience only > one strangth of magnetism. Magnets don't get any strong even while > closer in their two fields. Experiment and you will see.
> Mitch Raemsch
Speak English, Alvarado. Or maybe Porgie and Mudhead could help you out on this one.
> If you have two equal magnets being brought together experience only > one strangth of magnetism. Magnets don't get any strong even while > closer in their two fields. Experiment and you will see.
> Mitch Raemsch
Speak English, Alvarado. Or maybe Porgie and Mudhead could help you out on this one.
It depends which parts of the magnets you are trying to put together. Some repel each other.
> > If you have two equal magnets being brought together experience only > > one strangth of magnetism. Magnets don't get any strong even while > > closer in their two fields. Experiment and you will see.
> > Mitch Raemsch
> Speak English, Alvarado. Or maybe Porgie and Mudhead could help you > out on this one.
> It depends which parts of the magnets you are trying to put together. Some > repel each other.
It is still the same strength in repulsion or attraction.
> > > If you have two equal magnets being brought together experience only > > > one strangth of magnetism. Magnets don't get any strong even while > > > closer in their two fields. Experiment and you will see.
> > > Mitch Raemsch
> > Speak English, Alvarado. Or maybe Porgie and Mudhead could help you > > out on this one.
> > It depends which parts of the magnets you are trying to put together. Some > > repel each other.
> It is still the same strength in repulsion or attraction.
But that's also why the people who understand strength of materials, long ago stopped working on permanment magnets, and started working on electro-magents, and robots. And it's also why the people who understand history and rain started working on post-watt engines and self-replicating machines and stopped working on horse shoes. And it's also why the people who understand navigation started working on GPS, Cruise Missiles, Drones, Cyber Batteries, and UAVs, and stopped working with the Navy. And it's also why the people who understand engineering, started working on Multiplexed Fiber Optics, USB, External Harddisks, Flat Sceen Debuggers, Flash Memory, Holographics, Laser Disks, mp3, mpeg, HDTV, Blue Ray, Home Broadband, All-In-One Printers, Desktop Publishing, On-Line Publishing, Distributed Processing Software. Reverse Compilers, Post ACME Screwthreads, Weather Satellites, Data Fusion, Digital Terrain Mapping, Pv Cell Energy, Digital Books, Cyber Batteries, and Compact Flouescent Lighting, and stopped working with optical computer cranks.
> > > > If you have two equal magnets being brought together experience only > > > > one strangth of magnetism. Magnets don't get any strong even while > > > > closer in their two fields. Experiment and you will see.
> > > > Mitch Raemsch
> > > Speak English, Alvarado. Or maybe Porgie and Mudhead could help you > > > out on this one.
> > > It depends which parts of the magnets you are trying to put together. Some > > > repel each other.
> > It is still the same strength in repulsion or attraction.
> But that's also why the people who understand strength of > materials, > long ago stopped working on permanment magnets, and started working > on electro-magents, and robots. > And it's also why the people who understand history and rain > started working on > post-watt engines and self-replicating machines and stopped working > on horse shoes. > And it's also why the people who understand navigation started > working > on GPS, Cruise Missiles, Drones, Cyber Batteries, and UAVs, and > stopped working with the Navy. > And it's also why the people who understand engineering, started > working > on Multiplexed Fiber Optics, USB, External Harddisks, Flat Sceen > Debuggers, > Flash Memory, Holographics, Laser Disks, mp3, mpeg, HDTV, Blue Ray, > Home Broadband, > All-In-One Printers, Desktop Publishing, On-Line Publishing, > Distributed Processing Software. > Reverse Compilers, Post ACME Screwthreads, Weather Satellites, > Data Fusion, Digital Terrain Mapping, > Pv Cell Energy, Digital Books, Cyber Batteries, and Compact > Flouescent Lighting, > and stopped working with optical computer cranks.
> > Mitch Raemsch- Hide quoted text -
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> - Show quoted text -- Hide quoted text -
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Magnetism is all even strength. A magnet has only one strength no matter what proximity in the field. Of course it must be in the two dirtections of the force or both attraction and repulsion. There is weigh from repulsion too. It is an aether.
> > > If you have two equal magnets being brought together experience only > > > one strangth of magnetism. Magnets don't get any strong even while > > > closer in their two fields. Experiment and you will see.
> > > Mitch Raemsch
> > Speak English, Alvarado. Or maybe Porgie and Mudhead could help you > > out on this one.
> > It depends which parts of the magnets you are trying to put together. > > Some > > repel each other.
> It is still the same strength in repulsion or attraction.
But that's also why the people who understand strength of materials, long ago stopped working on permanment magnets, and started working on electro-magents, and robots. And it's also why the people who understand history and rain started working on post-watt engines and self-replicating machines and stopped working on horse shoes. And it's also why the people who understand navigation started working on GPS, Cruise Missiles, Drones, Cyber Batteries, and UAVs, and stopped working with the Navy. And it's also why the people who understand engineering, started working on Multiplexed Fiber Optics, USB, External Harddisks, Flat Sceen Debuggers, Flash Memory, Holographics, Laser Disks, mp3, mpeg, HDTV, Blue Ray, Home Broadband, All-In-One Printers, Desktop Publishing, On-Line Publishing, Distributed Processing Software. Reverse Compilers, Post ACME Screwthreads, Weather Satellites, Data Fusion, Digital Terrain Mapping, Pv Cell Energy, Digital Books, Cyber Batteries, and Compact Flouescent Lighting, and stopped working with optical computer cranks.
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It might be nice to know how all that stuff works. But as long as it works, why worry?
They ought to simplify some of the manuals though, for dumb people who want to use these marvellous contraptions.
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