Análogo mecânico para a condutividade elétrica dos metais: efeitos da temperatura

Vanderlei S. Bagnato; Vinícius Rodrigues

doi:10.1590/S1806-11172006000100005

Análogo mecânico para a condutividade elétrica dos metais: efeitos da temperatura

Translated title of the contribution: Mechanical analogue for electrical conductivity of metals: effect of temperature

Vanderlei S. Bagnato, Vinícius Rodrigues

Design, Manufacturing And Engineering Management

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Abstract

Electrical conductivity is one of the most important concepts within aspects of modern physics with a great extension to materials science. It is responsible for most applications of metallic and semiconductor materials. The understanding of microscopic models that reproduce certain characteristics is an important step towards the understanding of materials. In this work we continue to use a system that constitutes a mechanical analogue to understand how the limitations of electrical conductivity of metals occur. Using this model we investigated the effect of temperature on conductivity. The model presented here is quite instructive and lends itself very well to demonstrations in the classroom or even for carrying out laboratory practices in undergraduate courses or teaching practices in Physics in High School.

Translated title of the contribution	Mechanical analogue for electrical conductivity of metals: effect of temperature
Original language	Portuguese
Pages (from-to)	35-39
Number of pages	5
Journal	Revista Brasileira de Ensino de Física
Volume	28
Issue number	1
DOIs	https://doi.org/10.1590/S1806-11172006000100005
Publication status	Published - 19 Jul 2006

Keywords

conductivity
mechanical model
mechanical drude model
condutividade
modelo mecânico
modelo de Drude mecânico

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10.1590/S1806-11172006000100005Licence: CC BY-NC 4.0

Bagnato-Rodrigues-RBEF-2006-Mechanical-analogue-for-electrical-conductivity-of-metalsFinal published version, 173 KBLicence: CC BY-NC 4.0

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title = "An{\'a}logo mec{\^a}nico para a condutividade el{\'e}trica dos metais: efeitos da temperatura",

abstract = "Electrical conductivity is one of the most important concepts within aspects of modern physics with a great extension to materials science. It is responsible for most applications of metallic and semiconductor materials. The understanding of microscopic models that reproduce certain characteristics is an important step towards the understanding of materials. In this work we continue to use a system that constitutes a mechanical analogue to understand how the limitations of electrical conductivity of metals occur. Using this model we investigated the effect of temperature on conductivity. The model presented here is quite instructive and lends itself very well to demonstrations in the classroom or even for carrying out laboratory practices in undergraduate courses or teaching practices in Physics in High School.",

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AU - Rodrigues, Vinícius

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Y1 - 2006/7/19

N2 - Electrical conductivity is one of the most important concepts within aspects of modern physics with a great extension to materials science. It is responsible for most applications of metallic and semiconductor materials. The understanding of microscopic models that reproduce certain characteristics is an important step towards the understanding of materials. In this work we continue to use a system that constitutes a mechanical analogue to understand how the limitations of electrical conductivity of metals occur. Using this model we investigated the effect of temperature on conductivity. The model presented here is quite instructive and lends itself very well to demonstrations in the classroom or even for carrying out laboratory practices in undergraduate courses or teaching practices in Physics in High School.

AB - Electrical conductivity is one of the most important concepts within aspects of modern physics with a great extension to materials science. It is responsible for most applications of metallic and semiconductor materials. The understanding of microscopic models that reproduce certain characteristics is an important step towards the understanding of materials. In this work we continue to use a system that constitutes a mechanical analogue to understand how the limitations of electrical conductivity of metals occur. Using this model we investigated the effect of temperature on conductivity. The model presented here is quite instructive and lends itself very well to demonstrations in the classroom or even for carrying out laboratory practices in undergraduate courses or teaching practices in Physics in High School.

KW - conductivity

KW - mechanical model

KW - mechanical drude model

KW - condutividade

KW - modelo mecânico

KW - modelo de Drude mecânico

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JF - Revista Brasileira de Ensino de Física

IS - 1

ER -

Análogo mecânico para a condutividade elétrica dos metais: efeitos da temperatura

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Keywords

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