FOR WORKING MODEL SHIPS
Bought to compare with Rare Earth magnets for working model ship purposes. Overall a very satisfactory experience.
Product code: 10180
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This Ferrite Disc Magnet has a diameter of 5mm and a thickness of 3mm. It has a magnetic flux reading of 1916 Gauss and a pull force of 90 grams. It is identified by the AMF magnet part number 10180.
Let there be light. Light a million times brighter than the sun. This kind of light, able to be generated using magnets, including these tiny 5mmx3mm ferrite discs, as well as many others, is required to see what the known universe is made of, and how it functions.
A football stadium sized megavoltage machine called a synchrotron forces high energy electrons to travel in a circular orbit using magnetic fields to produce super light. This super light is used to see or reveal the innermost sub-microscopic secrets of materials requiring investigation.
Applications for this technology include medicine, defence, manufacturing and mining. Magnetic power applied on this monumental scale is able to advance human knowledge of the intimate structure of the universe and almost everything contained therein. Understanding the structure of particles and materials and how they respond to changed circumstances enables researches and thinkers to develop new technologies and philosophies to address human needs and wants.
Magnets and magnetic power are vital in this process of coming to terms with the world around us. In the super structure that is the synchrotron, electrons are directed, guided, bent, forced, straightened and shepherded along the ideal orbital path necessary to generate the kind of light necessary to see the structure of matter.
The entire world of synchrotron science depends on one physical phenomenon: when a moving electron changes direction it emits energy. Magnetic force facilitates the change of direction. The energy emitted is expressed as light. In this case super light.
Magnets of all sizes, shapes and calibre are used in a myriad of ways throughout all industries as a reliable, intuitive, nuanced holding and release push and pull force within known tolerances. Magnets play a vital role in the operation of the synchrotron. Let there be light.
Some applications for our small 5mm ferrite disc magnets are crafts, souvenirs, fridge magnets & whiteboard magnets.
No FAQ available
NB: Ranges are indicative for product category, please check individual products for specific values within that range.
This Ferrite Disc Magnet has a diameter of 5mm and a thickness of 3mm. It has a magnetic flux reading of 1916 Gauss and a pull force of 90 grams. It is identified by the AMF magnet part number 10180.
Let there be light. Light a million times brighter than the sun. This kind of light, able to be generated using magnets, including these tiny 5mmx3mm ferrite discs, as well as many others, is required to see what the known universe is made of, and how it functions.
A football stadium sized megavoltage machine called a synchrotron forces high energy electrons to travel in a circular orbit using magnetic fields to produce super light. This super light is used to see or reveal the innermost sub-microscopic secrets of materials requiring investigation.
Applications for this technology include medicine, defence, manufacturing and mining. Magnetic power applied on this monumental scale is able to advance human knowledge of the intimate structure of the universe and almost everything contained therein. Understanding the structure of particles and materials and how they respond to changed circumstances enables researches and thinkers to develop new technologies and philosophies to address human needs and wants.
Magnets and magnetic power are vital in this process of coming to terms with the world around us. In the super structure that is the synchrotron, electrons are directed, guided, bent, forced, straightened and shepherded along the ideal orbital path necessary to generate the kind of light necessary to see the structure of matter.
The entire world of synchrotron science depends on one physical phenomenon: when a moving electron changes direction it emits energy. Magnetic force facilitates the change of direction. The energy emitted is expressed as light. In this case super light.
Magnets of all sizes, shapes and calibre are used in a myriad of ways throughout all industries as a reliable, intuitive, nuanced holding and release push and pull force within known tolerances. Magnets play a vital role in the operation of the synchrotron. Let there be light.
Some applications for our small 5mm ferrite disc magnets are crafts, souvenirs, fridge magnets & whiteboard magnets.
No FAQ available
NB: Ranges are indicative for product category, please check individual products for specific values within that range.
The Pull Force listed for each magnet is based on lifting 10mm thick steel from a horizontal surface. Magnets on a vertical surface (of 10mm thick steel) are generally able to hold around only 30% of the pull force listed in the product description. This is due to the effects of gravity and the lack of friction between the surface and the shiny magnet. Read More