-
Floor 1-2, Building 4, No.1628 Lizheng Road, Lingang New Zone, Shanghai
Floor 1-2, Building 4, No.1628 Lizheng Road, Lingang New Zone, Shanghai
Hi there! Ever played with magnets? They are really cool, right? You can put them on your fridge or use them to clip papers together. But do you know what makes them tick? So now, let's get into the fun of magnets!
Magnetic force is the special power of magnets. It explains why magnets can stick to each other or repel each other. This force is produced by tiny particles known as electrons that can be found in certain materials. These include ferromagnetic materials such as iron, cobalt, and nickel. These kinds of materials are called ferromagnetic materials because they are capable of becoming magnets. This arrangement of electrons creates what is referred to as a magnetic field surrounding the material when placed in a particular manner. This magnetic field is what makes magnets so powerful and fun to play with!
Magnet has two sides referred to as poles. One end is the north pole, the other end the south pole. When we bring two magnets close-(both having a N and a S pole) polarity something interesting happens! Devices with opposite poles, such as a north pole and a south pole, attract each other. That’s called attraction, and it makes the magnets cling to each other. But if you try to bring two of the same poles together, such as two north poles, they repel each other. This is called repulsion. That’s why magnets can stick to metal things such as your fridge or a paperclip. Which means magnets are everywhere in our day-to-day lives! Say that, for example, you’ve come across a compass. A compass is a small tool that uses a magnet to discover what way is east. Well, it is very helpful for people who are exploring or even the hiking. Magnets are also used in motors and generators, which generate electricity that powers our homes and many of our devices.
Reading Time: 4 minutesDid you know that magnets have been used by people to cure diseases since the ancient Greeks? The ancient Greeks discovered magnets thousands of years ago and used a naturally magnetic stone called magnetite. They believed it was a magical stone! But people didn’t start really understanding how magnets work until the 1800s. In the 19th century, magnets were studied more rigorously and scientists started to learn about them and their properties. Then in the 1900s, scientists ironed out stronger magnets. Today, these powerful magnets are used in many important machines, for example MRI machines. MRI machines allow doctors to see inside your body without performing any cuts. They use magnets to create detailed pictures of what’s happening inside you, and that can be really useful for doctors to know how to treat patients.
Cobalt: This is a really strong material that can hold a lot of magnetism but there is a bit expensive which is one of the reasons why it is used less often in everyday magnets.
Neodymium: These are a newer generation of magnets and are extremely powerful, more so than iron and cobalt. Neodymium magnets can be found in many modern devices — including (but not limited to) headphones and wind turbines, which contribute to the generation of clean energy.
Scientists are constantly looking for ways to engineer new technology, and magnets are a big part of it. One exciting avenue of research is high-temperature superconductivity. This indicates that a material can allow electricity to flow without being spent at a high temperature. If scientists can learn to do this, with magnets, it could be incredible! Imagine these really fast trains that hover over a track using magnets so they could get to their destination — and not touch the ground at high speeds. Or consider magnetic shields that might protect spaceships from ionizing radiation in outer space. And soon enough, even space travel will change with these advances!
Magland Magnet system workshop spans 40,000 square metres fitted than 300 pieces high end manufacturing equipment, includes robotics well as automated machinery. facility allows precision effective manufacturing processes guarantee superior product quality.
Magland Magnet system strict quality control throughout entire production process. screening raw materials through final product inspection. product subjected rigorous testing, making sure they meet technical well environmental requirements clients.
Magland places high value Magnet system innovation collaborates academic research institutions stay top technological advancements field magnetism. ensures cutting-edge magnet assemblies designed meet needs customers.
Magland provides Magnet system services based upon magnetic circuit simulation software. Magland specialization custom-designed magnetic solutions. product developed optimized meet particular requirements our customers. firm flexible accommodate requests custom. strives provide magnetic assemblies precisely line specifications customer.
Copyright © 2024 Shanghai Magland Magnetics Co., Ltd
EN
AR
CS
DA
NL
FI
FR
DE
IT
JA
KO
NO
PL
PT
RO
RU
ES
SV
TL
ID
SK
UK
VI
ET
HU
TH
TR
AF
GA
XH
