Moving Point Charge - Revision history

Vmanivannan33 at 18:44, 21 April 2025

2025-04-21T18:44:27Z

← Older revision		Revision as of 14:44, 21 April 2025
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	{{DISPLAYTITLE:Magnetic Field of a Moving Point Charge}}		{{DISPLAYTITLE:Magnetic Field of a Moving Point Charge}}
	(Grace Townsend Spring 2017)		(Grace Townsend Spring 2017)

			'''Vaishnavi Manivannan, Spring 2024'''

	'''Blake Heard, Fall 2017'''		'''Blake Heard, Fall 2017'''

Wsimonson3: /* References */

2024-11-23T19:30:11Z

References

← Older revision		Revision as of 15:30, 23 November 2024
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	[[Moving Point Charge]]		[[Moving Point Charge]]

			https://ocw.mit.edu/courses/3-a08-attraction-and-repulsion-the-magic-of-magnets-fall-2005/8b381002f65584aef2ba0b42339868aa_mag_relativity.pdf

Wsimonson3 at 19:28, 23 November 2024

2024-11-23T19:28:51Z

← Older revision		Revision as of 15:28, 23 November 2024
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	In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.		In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.

			[[Code to show relativity]]

			[https://trinket.io/glowscript/31d0f9ad9e]

Wsimonson3 at 19:27, 23 November 2024

2024-11-23T19:27:01Z

← Older revision		Revision as of 15:27, 23 November 2024
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	In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.		In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.

	~~[[File:Relativism.png\|width=200px]]~~

	~~[[Glowscript model]]~~

	==Moving point charges and Quantum Theory==		==Moving point charges and Quantum Theory==

	In 1955, [[The Ahanronov-Bohm Effect]] described magnetic fields affecting quantum particles that are not in the region of the magnetic field. This has to do with the phase of the quantum particle, with the interference pattern depending on [[electric flux]] as covered by [[Gauss's Law]]. Terms such as [[Vector Potential]], [[g-factor]] (relating quantum spin and magnetic fields), where internal spin of an electron gives rise to a [[magnetic moment]] which will interact with an external field help scientists model more complicated aspects of point charge.		In 1955, [[The Ahanronov-Bohm Effect]] described magnetic fields affecting quantum particles that are not in the region of the magnetic field. This has to do with the phase of the quantum particle, with the interference pattern depending on [[electric flux]] as covered by [[Gauss's Law]]. Terms such as [[Vector Potential]], [[g-factor]] (relating quantum spin and magnetic fields), where internal spin of an electron gives rise to a [[magnetic moment]] which will interact with an external field help scientists model more complicated aspects of point charge.



	==History==		==History==

Wsimonson3: /* Moving point charges and Quantum Theory */

2024-11-23T18:56:38Z

Moving point charges and Quantum Theory

← Older revision		Revision as of 14:56, 23 November 2024
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	==Moving point charges and Quantum Theory==		==Moving point charges and Quantum Theory==

	In 1955, [[The Ahanronov-Bohm Effect]] described magnetic fields affecting quantum particles that are not in the region of the magnetic field. This has to do with the phase of the quantum particle, with the interference pattern depending on [[electric flux]] as covered by [[Gauss's Law]]. Terms such as [[Vector Potential]], [[g-factor]] (relating quantum spin and magnetic fields), where internal spin of an electron gives rise to a [[magnetic moment]] which will interact with an external field.		In 1955, [[The Ahanronov-Bohm Effect]] described magnetic fields affecting quantum particles that are not in the region of the magnetic field. This has to do with the phase of the quantum particle, with the interference pattern depending on [[electric flux]] as covered by [[Gauss's Law]]. Terms such as [[Vector Potential]], [[g-factor]] (relating quantum spin and magnetic fields), where internal spin of an electron gives rise to a [[magnetic moment]] which will interact with an external field help scientists model more complicated aspects of point charge.

	==History==		==History==

Wsimonson3 at 18:55, 23 November 2024

2024-11-23T18:55:54Z

← Older revision		Revision as of 14:55, 23 November 2024
Line 116:		Line 116:
	In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.		In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.

	[[File:Relativism.png\|width=~~50px~~]]		[[File:Relativism.png\|width=200px]]

			[[Glowscript model]]

			==Moving point charges and Quantum Theory==

			In 1955, [[The Ahanronov-Bohm Effect]] described magnetic fields affecting quantum particles that are not in the region of the magnetic field. This has to do with the phase of the quantum particle, with the interference pattern depending on [[electric flux]] as covered by [[Gauss's Law]]. Terms such as [[Vector Potential]], [[g-factor]] (relating quantum spin and magnetic fields), where internal spin of an electron gives rise to a [[magnetic moment]] which will interact with an external field.

	==History==		==History==

Wsimonson3: /* Magnetism and the Theory of Relativity */

2024-11-23T18:37:47Z

Magnetism and the Theory of Relativity

← Older revision		Revision as of 14:37, 23 November 2024
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	In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.		In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.

	[[File:Relativism.png\|width=~~100px~~]]		[[File:Relativism.png\|width=50px]]

	==History==		==History==

Wsimonson3 at 18:37, 23 November 2024

2024-11-23T18:37:27Z

← Older revision		Revision as of 14:37, 23 November 2024
Line 116:		Line 116:
	In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.		In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.

	[[File:Relativism.png\|width=~~300px~~]]		[[File:Relativism.png\|width=100px]]

	==History==		==History==

Wsimonson3 at 18:37, 23 November 2024

2024-11-23T18:37:05Z

← Older revision		Revision as of 14:37, 23 November 2024
Line 116:		Line 116:
	In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.		In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.

	[[File:Relativism.png\|~~200x300px~~]]		[[File:Relativism.png\|width=300px]]

	==History==		==History==

Wsimonson3 at 18:35, 23 November 2024

2024-11-23T18:35:48Z

← Older revision		Revision as of 14:35, 23 November 2024
Line 116:		Line 116:
	In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.		In 1905, Einstein made the claim that observers moving at different velocities will be affected differently by magnetic fields, and also stated that the electromagnetic field created by a moving point charge can be thought of as a single entity in the fourth dimension, and does so through the [[field strength tenor]]. A [[Lorenz Transformation]] relates the magnetic and electric fields from an original velocity to a new velocity by the observer through a transformation. An electric field in one frame can be seen as a combination of both a magnetic and electric field in another frame moving relative to the first.

	[[File:Relativism.png\|~~w300x400px~~]]		[[File:Relativism.png\|200x300px]]

	==History==		==History==