[size=200][color=#073763][size=150][size=100][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/size][br][/size][/color][color=#980000][center]Você já deve ter ouvido falar no famoso "Teorema de Pitágoras"...[/center][/color][/size][size=150][color=#073763]O objetivo desta atividade é mostrar [u]o que é[/u] esse teorema, estudar os [u]conceitos[/u] envolvidos e trabalhar algumas de suas [u]aplicações[/u].[br]Para isso, antes vamos considerar algumas definições importantes para o tema.[/color][/size]

[color=#073763][size=150][size=100][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/size][/size][/color][u][color=#980000][size=200][br]Teorema[/size][/color][br][br][/u][size=150][color=#073763]O que você entende quando ouve a palavra "teorema"?[br][/color][i][color=#980000]Teorema é uma afirmação matemática que pode ser demonstrada por meio de um processo lógico.[/color][/i][color=#073763][br]O teorema que vamos estudar, faz uma afirmação a respeito dos lados de um triângulo retângulo. Seu nome faz homenagem a um filósofo grego que viveu entre 570 a.C. e 495 a.C.[/color][/size]

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[u][size=200][size=100][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/size][color=#980000][br]Área do quadrado[br][br][/color][/size][/u][size=150][color=#073763]Vamos revisar um conceito que utilizaremos daqui a pouco: Área do quadrado. [br][/color][justify][color=#073763]A [b]área[/b] de uma figura plana informa o tamanho de sua região. E, para calcular a área de um quadrado, basta saber a medida de um de seus lados (já que todos os lados são iguais) e elevar essa medida a 2, ou seja, "elevar ao quadrado".[br][br]Veja os exemplos:[/color][/justify][/size][justify][color=#073763][/color][/justify][justify][img]data:image/png;base64,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[/img][br][img]data:image/png;base64,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[/img][br][br][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/justify]

[color=#980000][u][size=200]O teorema de Pitágoras[br][/size][/u][/color][color=#073763][br][size=150]Agora, vamos enfim descobrir o que diz o teorema de Pitágoras...[br]Esse teorema relaciona as medidas dos três lados de um triângulo retângulo (os dois catetos e a hipotenusa) e pode ser demonstrado de diversas maneiras.[/size][/color]

[size=200][size=100][color=#073763][size=100]______________________________________________________________________________________________________________________________________________________________[/size][br][/color][/size][color=#980000]Explore o aplicativo abaixo e descubra o famoso teorema de Pitágoras. [/color][/size][i][size=100][center][color=#980000][br](Para usar o modo tela cheia, clique na figura no canto direito inferior)[/color][/center][/size][/i][center][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/center]

[size=200][size=100][color=#073763][size=100]______________________________________________________________________________________________________________________________________________________________[/size][br][/color][/size][/size][center][size=200][color=#980000][/color][/size][/center][justify][/justify][center][size=200][color=#980000][/color][/size][/center][justify][/justify][center][size=200][color=#980000]Agora que você já conhece o teorema de Pitágoras, [br]use o aplicativo abaixo e explore exemplos [br]numéricos.[/color][/size][i][size=100][/size][/i][/center][i][size=100][center][/center][/size][/i][i][size=100][center][/center][/size][/i][i][size=100][center][color=#980000][br](Para usar o modo tela cheia, clique na figura no canto direito inferior)[/color][/center][/size][/i][center][size=100][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/size][/center]

[color=#980000][u][size=200][i]Teste os seus conhecimentos...[br][br][/i][/size][/u](Para usar o modo tela cheia, clique na figura no canto direito inferior)[/color]

[size=200][size=100][color=#073763][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/color][/size][u][br][color=#980000]Usando o teorema de Pitágoras em um problema[br][/color][/u][/size][color=#073763][br][size=150]Leia o problema: [/size][br][br][i][size=150][size=200]Um campo de futebol mede 120 m de comprimento e 80 m de largura. Quantos metros um jogador percorrerá se correr toda a diagonal do campo?[/size][/size][/i][/color]

[size=100][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/size][center][size=200][color=#980000][br]Use o aplicativo abaixo para ver como podemos [br]solucionar esse problema.[/color][/size][/center][i][size=100][center][color=#980000](Para usar o modo tela cheia, clique na figura no canto direito inferior)[/color][/center][/size][/i][center][size=100][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/size][/center]

[size=100][size=100]______________________________________________________________________________________________________________________________________________________________[/size][/size]

[img]https://cdn.pensador.com/img/frase/pi/ta/pitagoras_pensem_o_que_quiserem_de_ti_faz_aquilo_que_te_l2jwmml.jpg[/img]