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Meta-charge. The amount of charge e is.
Meta-charge: The basic charge.
jī běn diàn hé is also known as "basic charge" or "elementary charge". Among all kinds of charged particles, the magnitude of the electron charge is the smallest, and people call the minimum charge the meta-charge, which is also one of the basic constants of physics, and is often represented by the symbol e. The basic charge e = coulomb, (usually take e =.)
is the amount of charge carried by an electron or a proton. The charge of any charged body is an integer multiple of e or equal to e. The empirical fact that initially aroused people's interest in electricity was through two insulators.
For example, the friction of fur and amber produces the phenomenon of attracting and repelling small objects such as confetti, which is first recognized and perceived as an empirical fact in people's daily life. It is not too much to attribute people's understanding of the nature of electricity to people's empirical facts in the first place.
The understanding of the nature of electrical phenomena began hundreds of years ago, but the qualitative understanding of electrical phenomena and even the quantitative analysis of electrical phenomena 150 years ago, until the understanding of the interaction process of electricity in modern physics, except for the attribution and repulsion of the properties of electricity itself, did not change the properties of electricity itself. The two characteristics of attraction and repulsion are already one of the basic properties of electricity in the process of interaction, which cannot be denied by empirical facts.
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The meta-charge refers to the smallest amount of electric charge, and the charge of any object is the meta-charge or an integer multiple of the meta-charge
The amount of charge carried by the meta-charge is.
c So the answer is:
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Also known as the basic charge, it is a unit of the amount of electric charge and is represented by the symbol e. After accurate measurement, the amount of charge carried by the element charge e=(
c Precise experiments show that the amount of charge carried by any charged body is always equal to an integer multiple of the minimum charge, that is, an integer multiple of the charge carried by the electron. Therefore, the absolute value of the charge carried by an electron is called the meta-charge, and it is used as a unit of charge. e is approximately equal to.
c 1910.
Millegan has been accurately determined and certified by the oil droplet test.
Primitiveness. The charge of the electron is 1 basis mu of Xun Yinchang charge, the charge of the proton is 1 basis charge, and the charge of all the charged subatomic particles that have been found is equal to the integer multiple of the elementary charge.
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The amount of charge carried by the element charge e = ( 177 33 000 49) 10 -19 cExperiments show that the amount of charge carried by any charged body is always equal to an integer multiple of the minimum charge, that is, an integer multiple of the charge carried by the electron. Therefore, people call the absolute value of the charge of an electron of the fundamental type as the meta-charge, and as.
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The meta-charge e is equal to the sell key to beat the coulomb. The meta-charge e is one of the basic units of charge and its magnitude is equal to the basic charge of the electron. An electron is one of the negatively charged elementary particles with a charge magnitude of coulombs.
Generally speaking, charge can be divided into positive charge and negative charge, the same charge repels each other, and the different charges attract each other.
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Also known as the basic modulus charge, it is a unit of charge and is represented by the symbol e. After accurate measurement, the amount of charge carried by the element back-splitting charge e=( 177 33 000 49) 10 -19 cPrecise experiments have shown that the amount of charge carried by any charged body is always equal to an integer multiple of a minimum charge, i.e., the whole amount of charge carried by an electron.
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1. The value of the meta-charge was first measured by the American physicist Milligan, and later many measurements were made, and the value of the meta-charge is now recognized as e=
In our calculations, we can take e=
2. Coulomb accurately measured the electrostatic force constant k for the first time through the Coulomb torsion scale experimental device, and the electrostatic force constant k=
So the answer is:;
Amount of charge: The amount of charge.
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