simulação da corrida de massa do km 42 ... - mtc-m17:80 - Inpe
simulação da corrida de massa do km 42 ... - mtc-m17:80 - Inpe
simulação da corrida de massa do km 42 ... - mtc-m17:80 - Inpe
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a f = 1,15mv f = 23,13m/sa f = 1,08mv f = 18,21m/st = 12s (a max = 11,86m : va max = 10,67m/s)t = 22s (a max = 7,69m : va max = 22,59m/s)a f = 1,0mv f = 14,13m/sa f = 1,06mv f = 9,36m/st = 28s (a max = 6,06m : va max = 17,98m/s)t = 48s (a max = 7,71m : va max = 0,11m/s)a f = 1,23mv f = 2,81m/sa f = 1,13mv f = 0,48m/st = 88s (a max = 6,39m : va max = 0,21m/s)t = 282s (a max = 4,94m : va max = 0,23m/s)Figura 6 – Resulta<strong>do</strong>s <strong>da</strong> simulação S3 com mapa <strong>de</strong> 3 materiais. Alcance, altura e veloci<strong>da</strong><strong>de</strong>máxima em ca<strong>da</strong> tempo. (on<strong>de</strong> a max = altura máxima <strong>da</strong> pilha, va max = veloci<strong>da</strong><strong>de</strong> <strong>do</strong> material na altura máxima, a f =altura a partir <strong>de</strong> 1m na frente <strong>da</strong> corri<strong>da</strong> e v f = veloci<strong>da</strong><strong>de</strong> na frente <strong>da</strong> corri<strong>da</strong>).
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