Law of Conservation of Charge Explained... Electrification
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#electrification #électrification
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#electrification #électrification
#3danimation #3delectrical #diyelectrical
#electrical #electrician #electricians #electricalwork #electricalworks #electricalstudent #electricalstudents #electricalengineering #electricalengineer #electricaltips #electricalwiring
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LearningTranscript
00:00If you rub a glass rod with a piece of cloth, the electrons on the glass rod will be transferred to the cloth.
00:06At this time, the glass rod will be positively charged and the cloth will be negatively charged.
00:13This is frictional electrification.
00:15If you put the glass rod in contact with another electrically neutral glass rod,
00:20the electrons will move to the positively charged glass rod and neutralization will occur.
00:27This is contact electrification.
00:30If you put the positively charged glass rod close to a metal rod, even if there is no contact,
00:36the negative charge of the metal rod will move to the end close to the glass rod,
00:41while the end far away will be positively charged.
00:45If the glass rod is negatively charged, the end of the metal rod close to the glass rod will be positively charged
00:52and the end far away will be negatively charged.
00:55We call this phenomenon electrostatic induction.
00:59Next, connect the negatively charged end of the metal rod to the ground.
01:04The negative charge will flow to the ground, making the metal rod positively charged as a whole.
01:10Note that in the above process, only the distribution of charge changes.
01:15The total amount of charge remains unchanged during the transfer process
01:19and all follow the law of conservation of charge.
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