The Commonality between Light and Electric Current - Revision history

DTombe at 14:48, 17 October 2022

2022-10-17T14:48:29Z

← Older revision		Revision as of 10:48, 17 October 2022
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	In the year 1855, German physicists Wilhelm Eduard Weber and Rudolf Hermann Arndt Kohlrausch performed an experiment involving the discharge of a Leyden jar and they established the ratio between electrostatic and electrodynamic units of charge. This ratio, which became known as Weber’s constant, was measured numerically to be c√2, where c was very close to the speed of light. Since this experiment had nothing to do with optics, the question then arises as to whether they had perhaps actually measured the speed of electric current, which just happens to be close to the speed of light for the reason that the speed of light is in turn determined by the speed of electric current within the context of the medium for the propagation of light.		In the year 1855, German physicists Wilhelm Eduard Weber and Rudolf Hermann Arndt Kohlrausch performed an experiment involving the discharge of a Leyden jar and they established the ratio between electrostatic and electrodynamic units of charge. This ratio, which became known as Weber’s constant, was measured numerically to be c√2, where c was very close to the speed of light. Since this experiment had nothing to do with optics, the question then arises as to whether they had perhaps actually measured the speed of electric current, which just happens to be close to the speed of light for the reason that the speed of light is in turn determined by the speed of electric current within the context of the medium for the propagation of light.
	We must establish the physical commonality between light and electric current. See,		We must establish the physical commonality between light and electric current. See,

	https://www.researchgate.net/publication/364337354_The_Commonality_between_Light_and_Electric_Current		https://www.researchgate.net/publication/364337354_The_Commonality_between_Light_and_Electric_Current

DTombe at 14:48, 17 October 2022

2022-10-17T14:48:08Z

← Older revision		Revision as of 10:48, 17 October 2022
Line 1:		Line 1:
	In the year 1855, German physicists Wilhelm Eduard Weber and Rudolf Hermann Arndt Kohlrausch performed an experiment involving the discharge of a Leyden jar and they established the ratio between electrostatic and electrodynamic units of charge. This ratio, which became known as Weber’s constant, was measured numerically to be c√2, where c was very close to the speed of light. Since this experiment had nothing to do with optics, the question then arises as to whether they had perhaps actually measured the speed of electric current, which just happens to be close to the speed of light for the reason that the speed of light is in turn determined by the speed of electric current within the context of the medium for the propagation of light.		In the year 1855, German physicists Wilhelm Eduard Weber and Rudolf Hermann Arndt Kohlrausch performed an experiment involving the discharge of a Leyden jar and they established the ratio between electrostatic and electrodynamic units of charge. This ratio, which became known as Weber’s constant, was measured numerically to be c√2, where c was very close to the speed of light. Since this experiment had nothing to do with optics, the question then arises as to whether they had perhaps actually measured the speed of electric current, which just happens to be close to the speed of light for the reason that the speed of light is in turn determined by the speed of electric current within the context of the medium for the propagation of light.
	We must establish the physical commonality between light and electric current. See,		We must establish the physical commonality between light and electric current. See,

	https://www.researchgate.net/publication/364337354_The_Commonality_between_Light_and_Electric_Current		https://www.researchgate.net/publication/364337354_The_Commonality_between_Light_and_Electric_Current

DTombe: The Commonality between Light and Electric Current

2022-10-17T14:47:15Z

The Commonality between Light and Electric Current

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In the year 1855, German physicists Wilhelm Eduard Weber and Rudolf Hermann Arndt Kohlrausch performed an experiment involving the discharge of a Leyden jar and they established the ratio between electrostatic and electrodynamic units of charge. This ratio, which became known as Weber’s constant, was measured numerically to be c√2, where c was very close to the speed of light. Since this experiment had nothing to do with optics, the question then arises as to whether they had perhaps actually measured the speed of electric current, which just happens to be close to the speed of light for the reason that the speed of light is in turn determined by the speed of electric current within the context of the medium for the propagation of light.
We must establish the physical commonality between light and electric current. See,
https://www.researchgate.net/publication/364337354_The_Commonality_between_Light_and_Electric_Current