{"id":47463,"date":"2019-11-05T02:00:39","date_gmt":"2019-11-05T01:00:39","guid":{"rendered":"https:\/\/www.thermal-engineering.org\/o-que-e-energia-termica-definicao\/"},"modified":"2020-01-23T14:35:21","modified_gmt":"2020-01-23T13:35:21","slug":"o-que-e-energia-termica-definicao","status":"publish","type":"post","link":"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-energia-termica-definicao\/","title":{"rendered":"O que \u00e9 energia t\u00e9rmica &#8211; Defini\u00e7\u00e3o"},"content":{"rendered":"<div class=\"su-quote su-quote-style-default\">\n<div class=\"su-quote-inner su-clearfix\">Energia T\u00e9rmica &#8211; Defini\u00e7\u00e3o.\u00a0Energia t\u00e9rmica (tamb\u00e9m chamada de energia interna) \u00e9 definida como a energia associada a formas microsc\u00f3picas de energia.\u00a0Engenharia T\u00e9rmica<\/div>\n<\/div>\n<div class=\"su-divider su-divider-style-dotted\"><\/div>\n<div class=\"lgc-column lgc-grid-parent lgc-grid-100 lgc-tablet-grid-100 lgc-mobile-grid-100 lgc-equal-heights lgc-first lgc-last\">\n<div class=\"inside-grid-column\">\n<div class=\"su-spacer\"><\/div>\n<h2>Energia T\u00e9rmica &#8211; Defini\u00e7\u00e3o<\/h2>\n<p><strong>Energia T\u00e9rmica &#8211; Defini\u00e7\u00e3o<\/strong><\/p>\n<p>Na termodin\u00e2mica,\u00a0<strong><a href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-energia-interna-energia-termica-definicao\/\">energia t\u00e9rmica<\/a><\/strong>\u00a0(tamb\u00e9m chamada de\u00a0<strong>energia interna<\/strong>\u00a0) \u00e9 definida como a\u00a0<a title=\"O que \u00e9 energia - F\u00edsica\" href=\"https:\/\/www.nuclear-power.com\/nuclear-engineering\/thermodynamics\/what-is-energy-physics\/\">energia<\/a>\u00a0associada a\u00a0<strong>formas microsc\u00f3picas de energia<\/strong>\u00a0.\u00a0\u00c9 uma\u00a0<a title=\"Propriedades extensivas e intensivas\" href=\"https:\/\/www.nuclear-power.com\/nuclear-engineering\/thermodynamics\/extensive-and-intensive-properties\/\">quantidade extensa<\/a>\u00a0, depende do tamanho do sistema ou da quantidade de subst\u00e2ncia que ele cont\u00e9m.\u00a0A unidade SI de\u00a0<strong>\u00a0energia t\u00e9rmica<\/strong>\u00a0\u00e9 o\u00a0<a title=\"Joule (unidade J) - Unidade de Energia\" href=\"https:\/\/www.nuclear-power.com\/nuclear-engineering\/thermodynamics\/what-is-energy-physics\/joule-unit-j-energy-unit\/\"><strong>joule (J)<\/strong><\/a>\u00a0.\u00a0\u00c9 a energia contida no sistema, excluindo a\u00a0<a title=\"O que \u00e9 energia cin\u00e9tica\" href=\"https:\/\/www.nuclear-power.com\/nuclear-engineering\/thermodynamics\/what-is-energy-physics\/what-is-kinetic-energy\/\">energia cin\u00e9tica<\/a>\u00a0do movimento do sistema como um todo e a energia potencial do sistema.\u00a0<strong>As formas microsc\u00f3picas de energia<\/strong>\u00a0incluem aquelas devidas \u00e0\u00a0<strong>rota\u00e7\u00e3o<\/strong>\u00a0,\u00a0<strong>vibra\u00e7\u00e3o, transla\u00e7\u00e3o<\/strong>\u00a0e\u00a0<strong>intera\u00e7\u00f5es<\/strong><strong>\u00a0<\/strong>entre as mol\u00e9culas de uma subst\u00e2ncia.\u00a0Nenhuma dessas formas de energia pode ser medida ou avaliada diretamente, mas t\u00e9cnicas foram desenvolvidas para avaliar a mudan\u00e7a na soma total de todas essas formas microsc\u00f3picas de energia.<\/p>\n<\/div>\n<\/div>\n<div class=\"lgc-column lgc-grid-parent lgc-grid-100 lgc-tablet-grid-100 lgc-mobile-grid-100 lgc-equal-heights lgc-first lgc-last\">\n<div class=\"inside-grid-column\">\n<div class=\"su-spacer\"><\/div>\n<h2>Energia microsc\u00f3pica<\/h2>\n<p><strong>Energia T\u00e9rmica &#8211; Defini\u00e7\u00e3o<\/strong><\/p>\n<p><strong>A energia interna<\/strong>\u00a0envolve energia na\u00a0<strong>escala microsc\u00f3pica<\/strong>\u00a0.\u00a0Pode ser dividido em energia microsc\u00f3pica potencial,\u00a0<sub>pote\u00a0<\/sub><em>U<\/em>\u00a0e energia cin\u00e9tica microsc\u00f3pica,\u00a0<em>U\u00a0<\/em><sub>kin<\/sub>\u00a0, componentes:<\/p>\n<p><strong>U = U\u00a0<sub>pote<\/sub>\u00a0+ U\u00a0<sub>parentes<\/sub><\/strong><\/p>\n<p><a href=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/microscopic-energy-internal-energy.png\"><img loading=\"lazy\" class=\"alignright size-medium wp-image-16656 lazy-loaded\" src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/microscopic-energy-internal-energy-300x196.png\" alt=\"Energia microsc\u00f3pica - energia interna\" width=\"300\" height=\"196\" data-lazy-type=\"image\" data-src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/microscopic-energy-internal-energy-300x196.png\" \/><\/a>onde a energia cin\u00e9tica microsc\u00f3pica, U\u00a0<sub>kin<\/sub>\u00a0, envolve os\u00a0<strong>movimentos<\/strong>\u00a0de todas as part\u00edculas do sistema em rela\u00e7\u00e3o \u00e0 estrutura do centro de massa.\u00a0Para um\u00a0<strong>g\u00e1s monat\u00f4mico<\/strong>\u00a0ideal\u00a0, essa \u00e9 apenas a\u00a0<strong>energia cin\u00e9tica translacional<\/strong>\u00a0do movimento linear dos \u00e1tomos.\u00a0Part\u00edculas monoat\u00f4micas n\u00e3o giram ou vibram.\u00a0O comportamento do sistema \u00e9 bem descrito pela teoria cin\u00e9tica dos gases.\u00a0A teoria cin\u00e9tica baseia-se no fato de que durante uma\u00a0<a href=\"https:\/\/www.nuclear-power.com\/laws-of-conservation\/law-of-conservation-of-energy\/elastic-collisions\/\">colis\u00e3o el\u00e1stica<\/a>\u00a0entre uma mol\u00e9cula com alta energia cin\u00e9tica e outra com baixa energia cin\u00e9tica, parte da energia ser\u00e1 transferida para a mol\u00e9cula de energia cin\u00e9tica inferior.\u00a0No entanto, para\u00a0<strong>gases poliat\u00f4micos,<\/strong>\u00a0existem\u00a0<strong>rota\u00e7\u00f5es<\/strong>\u00a0e<strong>energia cin\u00e9tica vibracional<\/strong>\u00a0tamb\u00e9m.<\/p>\n<p>A energia potencial microsc\u00f3pica,\u00a0<strong>U\u00a0<sub>pot<\/sub><\/strong>\u00a0, envolve as\u00a0<strong>liga\u00e7\u00f5es qu\u00edmicas<\/strong>\u00a0entre os \u00e1tomos que comp\u00f5em as mol\u00e9culas, as for\u00e7as de liga\u00e7\u00e3o no n\u00facleo e tamb\u00e9m os campos de for\u00e7a f\u00edsica no sistema (por exemplo, campos el\u00e9tricos ou magn\u00e9ticos).<\/p>\n<p>Em l\u00edquidos e s\u00f3lidos, h\u00e1 um componente significativo da energia potencial associada \u00e0s\u00a0<strong>for\u00e7as de atra\u00e7\u00e3o intermoleculares<\/strong>\u00a0.<\/p>\n<\/div>\n<\/div>\n<div class=\"lgc-column lgc-grid-parent lgc-grid-100 lgc-tablet-grid-100 lgc-mobile-grid-100 lgc-equal-heights lgc-first lgc-last\">\n<div class=\"inside-grid-column\">\n<div class=\"su-spacer\"><\/div>\n<div class=\"lgc-column lgc-grid-parent lgc-grid-100 lgc-tablet-grid-100 lgc-mobile-grid-100 lgc-equal-heights  lgc-first lgc-last\">\n<div class=\"inside-grid-column\">\n<h2><span>Energia t\u00e9rmica e calor<\/span><\/h2>\n<p><a href=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/Zeroth-Law-of-Thermodynamics-heat.png\"><img loading=\"lazy\" class=\"alignright size-medium wp-image-16452 lazy-loaded\" src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/Zeroth-Law-of-Thermodynamics-heat-300x158.png\" alt=\"zeroth-lei-da-termodin\u00e2mica-calor\" width=\"300\" height=\"158\" data-lazy-type=\"image\" data-src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/Zeroth-Law-of-Thermodynamics-heat-300x158.png\" \/><\/a><span>Enquanto\u00a0<\/span><a href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-energia-interna-energia-termica-definicao\/\"><strong><span>energia t\u00e9rmica<\/span><\/strong><strong>\u00a0<\/strong><\/a><span>\u00a0se refere \u00e0 energia total de todas as mol\u00e9culas dentro do objeto, o\u00a0\u00a0<\/span><a title=\"Calor na Termodin\u00e2mica\" href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-calor-na-fisica-calor-definicao\/\"><strong><span>calor<\/span><\/strong><\/a><span>\u00a0\u00a0\u00e9 a quantidade de energia que\u00a0\u00a0<\/span><strong><span>flui<\/span><\/strong><span>\u00a0\u00a0de um corpo para outro espontaneamente devido \u00e0 diferen\u00e7a de temperatura.\u00a0<\/span><strong><span>O calor<\/span><\/strong><span>\u00a0\u00a0\u00e9 uma forma de energia, mas \u00e9\u00a0\u00a0<\/span><strong><span>energia em tr\u00e2nsito<\/span><\/strong><span>\u00a0.\u00a0O calor n\u00e3o \u00e9 propriedade de um sistema.\u00a0No entanto, a transfer\u00eancia de energia como calor ocorre no n\u00edvel molecular como resultado de uma\u00a0\u00a0<\/span><strong><span>diferen\u00e7a de temperatura<\/span><\/strong><span>\u00a0.<\/span><\/p>\n<p><span>Considere um\u00a0\u00a0<\/span><strong><span>bloco de metal<\/span><\/strong><span>\u00a0\u00a0em alta temperatura, que consiste em \u00e1tomos que oscilam intensamente em torno de suas posi\u00e7\u00f5es m\u00e9dias.\u00a0<\/span><strong><span>A baixas temperaturas<\/span><\/strong><span>\u00a0, os \u00e1tomos continuam a oscilar, mas com\u00a0\u00a0<\/span><strong><span>menos intensidade<\/span><\/strong><span>\u00a0.\u00a0Se um bloco mais quente de metal \u00e9 colocado em contato com um bloco mais frio, os \u00e1tomos intensamente oscilantes na borda do bloco mais quente emitem sua energia cin\u00e9tica aos \u00e1tomos menos oscilantes na borda do bloco mais frio.\u00a0Nesse caso, h\u00e1\u00a0\u00a0<\/span><strong><span>transfer\u00eancia de energia<\/span><\/strong><span>\u00a0\u00a0entre esses dois blocos e o\u00a0\u00a0<\/span><strong><span>calor flui<\/span><\/strong><span>\u00a0\u00a0do bloco mais quente para o mais frio por essas vibra\u00e7\u00f5es aleat\u00f3rias.<\/span><\/p>\n<\/div>\n<\/div>\n<div class=\"lgc-column lgc-grid-parent lgc-grid-100 lgc-tablet-grid-100 lgc-mobile-grid-100 lgc-equal-heights  lgc-first lgc-last\">\n<div class=\"inside-grid-column\">\n<div class=\"su-spacer\"><\/div>\n<h2><span>Distinguindo temperatura, calor e energia t\u00e9rmica<\/span><\/h2>\n<p><span>Usando a teoria cin\u00e9tica, uma distin\u00e7\u00e3o clara entre essas tr\u00eas propriedades pode ser feita.<\/span><\/p>\n<ul>\n<li><a href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-temperatura-fisica-definicao\/\"><strong><span>A temperatura<\/span><\/strong><\/a><span>\u00a0\u00a0est\u00e1 relacionada \u00e0s\u00a0<\/span><a href=\"https:\/\/www.nuclear-power.com\/nuclear-engineering\/thermodynamics\/what-is-energy-physics\/what-is-kinetic-energy\/\"><strong><span>\u00a0energias cin\u00e9ticas<\/span><\/strong><\/a><span>\u00a0\u00a0das mol\u00e9culas de um material.\u00a0\u00c9 a energia cin\u00e9tica m\u00e9dia das mol\u00e9culas individuais.<\/span><\/li>\n<li><a href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-energia-interna-energia-termica-definicao\/\"><strong><span>Energia interna<\/span><\/strong><\/a><span>\u00a0\u00a0refere-se \u00e0 energia total de todas as mol\u00e9culas dentro do objeto.\u00a0\u00c9 uma\u00a0<\/span><strong><span>\u00a0propriedade extensa<\/span><\/strong><span>\u00a0, portanto, quando dois lingotes quentes de a\u00e7o com massa igual podem ter a mesma temperatura, mas dois deles t\u00eam o dobro de energia interna que um.<\/span><\/li>\n<li><span>Finalmente,\u00a0<\/span><a title=\"Calor na Termodin\u00e2mica\" href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-calor-na-fisica-calor-definicao\/\"><strong><span>\u00a0calor<\/span><\/strong><\/a><span>\u00a0\u00a0\u00e9 a quantidade de energia que flui de um corpo para outro espontaneamente devido \u00e0 diferen\u00e7a de temperatura.<\/span><\/li>\n<\/ul>\n<p><span>Deve-se adicionar, quando\u00a0\u00a0existe\u00a0uma\u00a0\u00a0<\/span><strong><span>diferen\u00e7a de temperatura<\/span><\/strong><span>\u00a0, o calor flui espontaneamente\u00a0\u00a0<\/span><strong><span>do sistema mais quente para o sistema mais frio<\/span><\/strong><span>\u00a0.\u00a0Assim, se um cubo de a\u00e7o de 5 kg a 100 \u00b0 C for colocado em contato com um cubo de a\u00e7o de 500 kg a 20 \u00b0 C, o calor fluir\u00e1 do cubo a 300 \u00b0 C para o cubo a 20 \u00b0 C, mesmo que a energia interna do cubo de 20 \u00b0 C \u00e9 muito maior porque h\u00e1 muito mais.<\/span><\/p>\n<p><span>Um conceito particularmente importante \u00e9 o\u00a0\u00a0<\/span><a href=\"https:\/\/www.nuclear-power.com\/nuclear-engineering\/thermodynamics\/thermodynamic-properties\/what-is-temperature-physics\/thermal-equilibrium\/\"><strong><span>equil\u00edbrio termodin\u00e2mico<\/span><\/strong><\/a><span>\u00a0.\u00a0Em geral, quando dois objetos s\u00e3o colocados em\u00a0<\/span><strong><span>\u00a0contato t\u00e9rmico<\/span><\/strong><span>\u00a0, o\u00a0\u00a0<\/span><strong><span>calor flui<\/span><\/strong><span>\u00a0\u00a0entre eles\u00a0\u00a0<\/span><strong><span>at\u00e9<\/span><\/strong><span>\u00a0\u00a0que entrem em\u00a0\u00a0<\/span><strong><span>equil\u00edbrio<\/span><\/strong><span>\u00a0\u00a0um com o outro.<\/span><\/p>\n<\/div>\n<\/div>\n<div class=\"lgc-column lgc-grid-parent lgc-grid-100 lgc-tablet-grid-100 lgc-mobile-grid-100 lgc-equal-heights  lgc-first lgc-last\">\n<div class=\"inside-grid-column\">\n<div class=\"su-spacer\"><\/div>\n<h2><span>Condutividade t\u00e9rmica<\/span><\/h2>\n<p><a href=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/Thermal-conduction-thermal-conductivity-uranium-dioxide.png\"><img loading=\"lazy\" class=\"alignright size-medium wp-image-20048 lazy-loaded\" src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/Thermal-conduction-thermal-conductivity-uranium-dioxide-300x288.png\" alt=\"Condu\u00e7\u00e3o t\u00e9rmica - condutividade t\u00e9rmica - di\u00f3xido de ur\u00e2nio\" width=\"300\" height=\"288\" data-lazy-type=\"image\" data-src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/Thermal-conduction-thermal-conductivity-uranium-dioxide-300x288.png\" \/><\/a><span>As\u00a0caracter\u00edsticas de\u00a0<\/span><a title=\"Transfer\u00eancia de calor\" href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-transferencia-de-calor-definicao\/\"><span>transfer\u00eancia de calor<\/span><\/a><span>\u00a0de um material s\u00f3lido s\u00e3o medidas por uma propriedade chamada\u00a0\u00a0<\/span><a title=\"Condutividade t\u00e9rmica\" href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-condutividade-termica-definicao\/\"><strong><span>condutividade t\u00e9rmica<\/span><\/strong><\/a><span>\u00a0, k (ou \u03bb), medida em\u00a0\u00a0<\/span><strong><span>W \/ mK<\/span><\/strong><span>\u00a0.\u00a0\u00c9 uma medida da capacidade de uma subst\u00e2ncia de transferir calor atrav\u00e9s de um material por condu\u00e7\u00e3o.\u00a0Observe que\u00a0\u00a0<\/span><a title=\"Lei de Fourier de condu\u00e7\u00e3o t\u00e9rmica\" href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-a-lei-de-conducao-termica-de-fourier-definicao\/\"><strong><span>a lei de Fourier<\/span><\/strong><\/a><span>\u00a0\u00a0se aplica a toda mat\u00e9ria, independentemente de seu estado (s\u00f3lido, l\u00edquido ou g\u00e1s); portanto, tamb\u00e9m \u00e9 definida para l\u00edquidos e gases.<\/span><\/p>\n<p><span>A\u00a0\u00a0<\/span><strong><span>condutividade t\u00e9rmica<\/span><\/strong><span>\u00a0\u00a0da maioria dos l\u00edquidos e s\u00f3lidos varia com a temperatura.\u00a0Para vapores, isso tamb\u00e9m depende da press\u00e3o.\u00a0Em geral:<\/span><\/p>\n<p><a href=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/thermal-conductivity-definition.png?d484e7\"><img loading=\"lazy\" class=\"aligncenter size-full wp-image-20041 lazy-loaded\" src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/thermal-conductivity-definition.png?d484e7\" alt=\"condutividade t\u00e9rmica - defini\u00e7\u00e3o\" width=\"225\" height=\"75\" data-lazy-type=\"image\" data-src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/thermal-conductivity-definition.png?d484e7\" \/><\/a><\/p>\n<p><span>A maioria dos materiais \u00e9 quase homog\u00eanea, portanto, geralmente podemos escrever\u00a0\u00a0<\/span><strong><em><span>k = k (T)<\/span><\/em><\/strong><span>\u00a0.\u00a0Defini\u00e7\u00f5es semelhantes est\u00e3o associadas a condutividades t\u00e9rmicas nas dire\u00e7\u00f5es\u00a0<\/span><sub><span>y<\/span><\/sub><span>\u00a0e z (k\u00a0<sub>y<\/sub>\u00a0, k\u00a0<\/span><sub><span>z<\/span><\/sub><span>\u00a0), mas para um material isotr\u00f3pico a condutividade t\u00e9rmica \u00e9 independente da dire\u00e7\u00e3o da transfer\u00eancia, k\u00a0<\/span><sub><span>x<\/span><\/sub><span>\u00a0\u00a0= k\u00a0<\/span><sub><span>y<\/span><\/sub><span>\u00a0\u00a0= k\u00a0<\/span><sub><span>z<\/span><\/sub><span>\u00a0\u00a0= k.<\/span><\/p>\n<p><span>A partir da equa\u00e7\u00e3o anterior, segue-se que o fluxo de calor de condu\u00e7\u00e3o aumenta com o aumento da condutividade t\u00e9rmica e aumenta com o aumento da diferen\u00e7a de temperatura.\u00a0Em geral, a condutividade t\u00e9rmica de um s\u00f3lido \u00e9 maior que a de um l\u00edquido, que \u00e9 maior que a de um g\u00e1s.\u00a0Essa tend\u00eancia se deve em grande parte \u00e0s diferen\u00e7as no\u00a0\u00a0<\/span><strong><span>espa\u00e7amento intermolecular<\/span><\/strong><span>\u00a0\u00a0para os dois estados da mat\u00e9ria.\u00a0Em particular, o diamante tem a mais alta dureza e condutividade t\u00e9rmica de qualquer material a granel.<\/span><\/p>\n<p><a href=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/thermal-conductivity-materials-table.png?d484e7\"><img loading=\"lazy\" class=\"aligncenter size-full wp-image-20063 lazy-loaded\" src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/thermal-conductivity-materials-table.png?d484e7\" alt=\"condutividade t\u00e9rmica - materiais\" width=\"865\" height=\"385\" data-lazy-type=\"image\" data-src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/thermal-conductivity-materials-table.png?d484e7\" \/><\/a><\/p>\n<\/div>\n<\/div>\n<div class=\"lgc-column lgc-grid-parent lgc-grid-100 lgc-tablet-grid-100 lgc-mobile-grid-100 lgc-equal-heights  lgc-first lgc-last\">\n<div class=\"inside-grid-column\">\n<div class=\"su-spacer\"><\/div>\n<h2><span>Energia Interna e a Primeira Lei da Termodin\u00e2mica<\/span><\/h2>\n<p><strong><span>Na termodin\u00e2mica,<\/span><\/strong><span>\u00a0o conceito de energia \u00e9 ampliado para dar conta de outras mudan\u00e7as observadas, e o\u00a0<\/span><strong><span>princ\u00edpio de conserva\u00e7\u00e3o de energia<\/span><\/strong><span>\u00a0\u00e9 estendido para incluir uma ampla variedade de maneiras pelas quais os sistemas interagem com o ambiente.\u00a0As \u00fanicas maneiras pelas quais a energia de um sistema fechado pode ser alterada s\u00e3o atrav\u00e9s da transfer\u00eancia de energia\u00a0<\/span><strong><span>pelo trabalho<\/span><\/strong><span>\u00a0ou\u00a0<\/span><strong><span>pelo calor<\/span><\/strong><span>\u00a0.\u00a0Al\u00e9m disso, com base nos experimentos de Joule e outros, um aspecto fundamental do conceito de energia \u00e9 que a\u00a0<\/span><strong><span>energia \u00e9 conservada.\u00a0<\/span><\/strong><span>Este princ\u00edpio \u00e9 conhecido como\u00a0\u00a0<\/span><strong><span>a primeira lei da termodin\u00e2mica<\/span><\/strong><span>\u00a0.\u00a0A primeira lei da termodin\u00e2mica pode ser escrita de v\u00e1rias formas:<\/span><\/p>\n<p><strong><span>Em palavras:<\/span><\/strong><\/p>\n<p><a href=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/first-law-of-thermodynamics-in-words.png\"><img loading=\"lazy\" class=\"aligncenter size-full wp-image-15717 lazy-loaded\" src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/first-law-of-thermodynamics-in-words.png\" alt=\"primeira lei da termodin\u00e2mica em palavras\" width=\"521\" height=\"105\" data-lazy-type=\"image\" data-src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/first-law-of-thermodynamics-in-words.png\" \/><\/a><\/p>\n<figure id=\"attachment_15716\" class=\"wp-caption alignright\" aria-describedby=\"caption-attachment-15716\"><a href=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/conservation-of-energy-in-thermodynamics.png\"><img loading=\"lazy\" class=\"wp-image-15716 size-medium lazy-loaded\" src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/conservation-of-energy-in-thermodynamics-201x300.png\" alt=\"conserva\u00e7\u00e3o de energia em termodin\u00e2mica\" width=\"201\" height=\"300\" data-lazy-type=\"image\" data-src=\"https:\/\/thermal-engineering.org\/wp-content\/uploads\/2019\/05\/conservation-of-energy-in-thermodynamics-201x300.png\" \/><\/a><figcaption id=\"caption-attachment-15716\" class=\"wp-caption-text\"><span>Layout f\u00edsico dos quatro principais dispositivos utilizados no ciclo Rankine e transfer\u00eancias b\u00e1sicas de energia.<\/span><\/figcaption><\/figure>\n<p><strong><span>Forma da equa\u00e7\u00e3o:<\/span><\/strong><\/p>\n<p><strong><span>IntE\u00a0<\/span><\/strong><strong><sub><span>int<\/span><\/sub><\/strong><strong><span>\u00a0= Q &#8211; W<\/span><\/strong><\/p>\n<p><span>onde\u00a0<\/span><strong><span>E\u00a0<\/span><sub><span>int<\/span><\/sub><\/strong><span>\u00a0representa a\u00a0<\/span><strong><span>energia interna<\/span><\/strong><span>\u00a0do material, que depende apenas\u00a0<\/span><strong><span>do estado do material<\/span><\/strong><span>\u00a0(temperatura, press\u00e3o e volume).\u00a0<\/span><strong><span>Q<\/span><\/strong><span>\u00a0\u00e9 o\u00a0<\/span><strong><span>calor l\u00edquido adicionado<\/span><\/strong><span>\u00a0ao sistema e\u00a0<\/span><strong><span>W<\/span><\/strong><span>\u00a0\u00e9 o\u00a0<\/span><strong><span>trabalho l\u00edquido realizado pelo<\/span><\/strong><span>\u00a0sistema.\u00a0Devemos ser cuidadosos e consistentes ao seguir as conven\u00e7\u00f5es de sinal para Q e W. Como W na equa\u00e7\u00e3o \u00e9 o trabalho realizado pelo sistema, se o trabalho for feito no sistema, W ser\u00e1 negativo e E\u00a0<\/span><sub><span>int<\/span><\/sub><span>\u00a0aumentar\u00e1.<\/span><\/p>\n<p><span>Da mesma forma, Q \u00e9 positivo para o calor adicionado ao sistema; portanto, se o calor sai do sistema, Q \u00e9 negativo.\u00a0Isso nos diz o seguinte: A\u00a0<\/span><strong><span>energia interna<\/span><\/strong><span>\u00a0de um sistema tende a aumentar se o calor for absorvido pelo sistema ou se um trabalho positivo for feito no sistema.\u00a0Por outro lado, a energia interna tende a diminuir se o calor for perdido pelo sistema ou se for feito um trabalho negativo no sistema.\u00a0Deve-se adicionar Q e W dependem do caminho, enquanto E\u00a0<\/span><sub><span>int<\/span><\/sub><span>\u00a0\u00e9 independente do caminho.<\/span><\/p>\n<p><strong><span>Forma diferencial:<\/span><\/strong><\/p>\n<p><strong><span>dE\u00a0<\/span><sub><span>int<\/span><\/sub><span>\u00a0= dQ &#8211; dW<\/span><\/strong><\/p>\n<p><span>A energia interna E\u00a0<\/span><sub><span>int<\/span><\/sub><span>\u00a0de um sistema tende a aumentar se a energia \u00e9 adicionada como calor Q e tende a diminuir se a energia \u00e9 perdida como o trabalho W realizado pelo sistema.<\/span><\/p>\n<p><strong><span>Vide tamb\u00e9m:\u00a0<\/span><a title=\"Sistema Aberto - Sistema Fechado - Sistema Isolado\" href=\"https:\/\/www.nuclear-power.com\/laws-of-conservation\/law-of-conservation-of-energy\/open-system-closed-system-isolated-system\/\"><span>Sistema aberto &#8211; Sistema fechado &#8211; Sistema isolado<\/span><\/a><\/strong><\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<p>&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;&#8230;.<\/p>\n<p>Este artigo \u00e9 baseado na tradu\u00e7\u00e3o autom\u00e1tica do artigo original em ingl\u00eas. Para mais informa\u00e7\u00f5es, consulte o artigo em ingl\u00eas. Voc\u00ea pode nos ajudar. Se voc\u00ea deseja corrigir a tradu\u00e7\u00e3o, envie-a para: translations@nuclear-power.com ou preencha o formul\u00e1rio de tradu\u00e7\u00e3o on-line. Agradecemos sua ajuda, atualizaremos a tradu\u00e7\u00e3o o mais r\u00e1pido poss\u00edvel. Obrigado.<\/p>\n","protected":false},"excerpt":{"rendered":"<p>Energia T\u00e9rmica &#8211; Defini\u00e7\u00e3o.\u00a0Energia t\u00e9rmica (tamb\u00e9m chamada de energia interna) \u00e9 definida como a energia associada a formas microsc\u00f3picas de energia.\u00a0Engenharia T\u00e9rmica Energia T\u00e9rmica &#8211; Defini\u00e7\u00e3o Energia T\u00e9rmica &#8211; Defini\u00e7\u00e3o Na termodin\u00e2mica,\u00a0energia t\u00e9rmica\u00a0(tamb\u00e9m chamada de\u00a0energia interna\u00a0) \u00e9 definida como a\u00a0energia\u00a0associada a\u00a0formas microsc\u00f3picas de energia\u00a0.\u00a0\u00c9 uma\u00a0quantidade extensa\u00a0, depende do tamanho do sistema ou da quantidade de &#8230; <a title=\"O que \u00e9 energia t\u00e9rmica &#8211; Defini\u00e7\u00e3o\" class=\"read-more\" href=\"https:\/\/www.thermal-engineering.org\/pt-br\/o-que-e-energia-termica-definicao\/\" aria-label=\"More on O que \u00e9 energia t\u00e9rmica &#8211; Defini\u00e7\u00e3o\">Ler mais<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":[],"categories":[14],"tags":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v15.4 - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>O que \u00e9 energia t\u00e9rmica - Defini\u00e7\u00e3o<\/title>\n<meta name=\"description\" content=\"Energia T\u00e9rmica - Defini\u00e7\u00e3o. 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