Coulomb's vs Gauss's Law: What's the Difference?

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Discussion Overview

The discussion centers on the differences and relationships between Coulomb's law and Gauss's law, focusing on their mathematical equivalence and physical interpretations. Participants explore theoretical implications, derivations, and the conceptual frameworks of both laws.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants note that Coulomb's law and Gauss's law yield the same results when calculating electric fields, prompting questions about their fundamental differences.
  • Others argue that while both laws are mathematically equivalent, their physical interpretations differ, with Coulomb's law focusing on the force between charges and Gauss's law addressing the electric field surrounding a charge.
  • It is suggested that Coulomb's law can be derived from Gauss's law through vector calculus, although some participants emphasize that Coulomb's law does not assume the existence of an electric field.
  • One participant raises the question of whether Gauss's law can be derived from Coulomb's law and whether additional principles, such as superposition, are necessary for this derivation.

Areas of Agreement / Disagreement

Participants express a mix of agreement and disagreement regarding the derivation relationships between the two laws, with some asserting that Coulomb's law leads to Gauss's law while others suggest the reverse is also possible. No consensus is reached on the primary differences between the laws.

Contextual Notes

Some claims depend on the interpretation of electric fields and forces, and the discussion does not resolve the implications of these interpretations on the laws' applicability.

abrowaqas
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What is the difference between coulomb's law and gauss's law ? because both are giving same results while calculating electric fields ? what is the basic difference. are they same?
 
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They are mathematically the same, although the physical interpretation is different.

Typically one pictures Coulomb's law as describing the force of interaction between two electric charges. But Gauss' law is a statement about the electric field around a charge. The total electric flux surrounding a charge is proportional to the charge. This implies an inverse square law for the field, which is consistent with Coulomb's law.
 
Coulomb's law leads to Gauss law.

From Coulomb's law, you get the force & hence the electric field of a charge distribution. You then apply some very simple vector calculus on the field to arrive at Gauss law.
 
graphene said:
Coulomb's law leads to Gauss law.

From Coulomb's law, you get the force & hence the electric field of a charge distribution. You then apply some very simple vector calculus on the field to arrive at Gauss law.

Coulomb's law supposes no field, electric or otherwise. There is no theory of an intervening field. The question is the difference, premised on the belief that Gauss' law and Coulomb's law obtain the same resultant force on charge.
 
In Gauss's Law, we actually suppose field around the charge, while in Coulomb's law, we talk about the force of attraction BETWEEN two point charges

I think that is the main difference !
 
Coulomb's law can be derived from Gauss' law very simply. Does anyone know how to do the reverse? In doing so, do more principles, such as superposition, need to be added to the mix?
 
thanks all ... i got the idea ...
 

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