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  • It can strike without warning, at any moment.

  • You may be walking across a soft carpet and reaching for the door knob

  • when suddenly...zap!

  • To understand static electricity,

  • we first need to know a bit about the nature of matter.

  • All matter is made up of atoms

  • that consist of three types of smaller particles:

  • negatively charged electrons,

  • positively charged protons,

  • and neutral neutrons.

  • Normally, the electrons and protons in an atom balance out,

  • which is why most matter you come across is electrically neutral.

  • But electrons are tiny and almost insignificant in mass,

  • and rubbing or friction can give loosely bound electrons

  • enough energy to leave their atoms and attach to others,

  • migrating between different surfaces.

  • When this happens,

  • the first object is left with more protons than electrons

  • and becomes positively charged,

  • while the one with more electrons accumulates a negative charge.

  • This situation is called a charge imbalance,

  • or net charge separation.

  • But nature tends towards balance,

  • so when one of these newly charged bodies comes into contact with another material,

  • the mobile electrons will take the first chance they get

  • to go where they're most needed,

  • either jumping off the negatively charged object,

  • or jumping onto the positively charged one

  • in an attempt to restore the neutral charge equilibrium.

  • And this quick movement of electrons, called static discharge,

  • is what we recognize as that sudden spark.

  • This process doesn't happen with just any objects.

  • Otherwise you'd be getting zapped all the time.

  • Conductors like metals and salt water

  • tend to have loosely bound outer electrons,

  • which can easily flow between molecules.

  • On the other hand, insulators like plastics, rubber and glass

  • have tightly bound electrons that won't readily jump to other atoms.

  • Static build-up is most likely to occur

  • when one of the materials involved is an insulator.

  • When you walk across a rug,

  • electrons from your body will rub off onto it,

  • while the rug's insulating wool will resist losing its own electrons.

  • Although your body and the rug together are still electrically neutral,

  • there is now a charge polarization between the two.

  • And when you reach to touch the door knob,

  • zap!

  • The metal door knob's loosely bound electrons hop to your hand

  • to replace the electrons your body has lost.

  • When it happens in your bedroom, it's a minor nuisance.

  • But in the great outdoors,

  • static electricity can be a terrifying, destructive force of nature.

  • In certain conditions, charge separation will occur in clouds.

  • We don't know exactly how this happens.

  • It may have to do with the circulation of water droplets

  • and ice particles within them.

  • Regardless, the charge imbalance is neutralized

  • by being released towards another body,

  • such as a building,

  • the Earth,

  • or another cloud in a giant spark that we know as lightning.

  • And just as your fingers can be zapped over and over in the same spot,

  • you better believe that lightning can strike the same place more than once.

It can strike without warning, at any moment.

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B2 中上級

TED-ED】静電気の科学 - Anuradha Bhagwat (【TED-Ed】The science of static electricity - Anuradha Bhagwat)

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    稲葉白兎 に公開 2021 年 01 月 14 日
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