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(\(A\) UFC/mL.)Tj
0.26 Tw T*
(\(B\) UFC/g.)Tj
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0.205 Tw T*
(\(D\) NMP/mL.)Tj
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(\(E\) NMP/g.)Tj
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0.0268 Tw 1.701 0 Td
(De acordo com as normas t\351cnicas, a \341gua pot\341vel \351 aquela )Tj
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( cont\351m, em 100 mL,)Tj
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(\(A\) coliformes.)Tj
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(\(B\) )Tj
/T1_2 1 Tf
1.843 0 Td
(pseudomonas aeruginosa.)Tj
/T1_0 1 Tf
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(\(C\) )Tj
/T1_2 1 Tf
1.843 0 Td
[(staphylococcus aur)37(eus.)]TJ
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(\(D\) )Tj
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1.843 0 Td
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( spp.)Tj
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[(\(E\) alguma )316(bact\351ria.)]TJ
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(44. )Tj
/T1_0 1 Tf
0.0119 Tc 0.1251 Tw 1.701 0 Td
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[(\(A\) )-205(calibradas diariamente, antes do uso.)]TJ
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(\(C\) )Tj
0.017 Tc 0.125 Tw 1.843 0 Td
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0.0336 Tw -1.843 -1.767 Td
[(\(D\) )-171(calibradas regularmente, de acordo com o estabelecido )]TJ
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0 Tw T*
(credenciados.)Tj
-0.0221 Tw -1.843 -1.767 Td
[(\(E\) )-338(verificadas regularmente, de acordo com o estabelecido )]TJ
0.0957 Tw 1.843 -1.2 Td
(pelo Sistema de Qualidade, em laborat\363rios de ensaio )Tj
0 Tw T*
(credenciados.)Tj
/T1_1 1 Tf
-3.543 -2.901 Td
(45. )Tj
/T1_0 1 Tf
-0.0049 Tc -0.0621 Tw 1.701 0 Td
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0.0561 Tw 0 -1.767 TD
[(\(A\) )-149(s\343o determinados, de acordo com a atividade, pela ge-)]TJ
0 Tw 1.843 -1.2 Td
(r\352ncia do laborat\363rio.)Tj
-1.843 -1.767 Td
(\(B\) )Tj
-0.0128 Tc -0.0622 Tw 1.843 0 Td
[(devem possuir C.A)55( \(Certificado de )55(Aprova\347\343o\), fornecido)-13( )]TJ
0 Tc 0 Tw 0 -1.2 TD
[(pelo Minist\351rio do )19(T)35(rabalho.)]TJ
-1.843 -1.767 Td
[(\(C\) )-260(devem ser adquiridos pelos pr\363prios laboratoristas.)]TJ
0.0976 Tw 0 -1.767 TD
[(\(D\) )-107(podem ser partilhados por v\341rios laboratoristas, desde )]TJ
0 Tw 1.843 -1.2 Td
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0.0145 Tw -1.843 -1.767 Td
[(\(E\) )-301(n\343o precisam ser usados quando o laboratorista faz uso )]TJ
0 Tw 1.843 -1.2 Td
(de um Equipamento de Prote\347\343o Coletiva.)Tj
/T1_1 1 Tf
-3.543 -2.901 Td
(46. )Tj
/T1_0 1 Tf
-0.0191 Tw 1.701 0 Td
(Assinale a alternativa que descreve um m\351todo para esterili-)Tj
0 Tw 0 -1.2 TD
[(za\347\343o de 500 mL)38( de \341gua.)]TJ
0 -1.767 TD
[(\(A\) )-205(Fervura, por 30 min.)]TJ
T*
[(\(B\) )-260(Micro-ondas, por 15 min.)]TJ
T*
[(\(C\) )-260(Ondas curtas, por 30 min.)]TJ
-0.0002 Tw T*
[(\(D\) )-205(Radia\347\365es ultravioleta, por 20 min.)]TJ
0 Tw T*
[(\(E\) )-316(Autoclava\347\343o, a 121 )]TJ
/T1_3 1 Tf
10.284 0 Td
(\002)Tj
/T1_0 1 Tf
(C, por 15 min.)Tj
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(47. )Tj
/T1_0 1 Tf
0.0049 Tc 0.1251 Tw 1.701 0 Td
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0 Tw 0 -1.2 TD
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-0.0046 Tc -0.0634 Tw -1.843 -1.625 Td
[(\(B\) )-328(Assepsia \351 o conjunto de medidas que permitem eliminar )]TJ
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[(totalmente os micro-or)20(ganismos de uma superf\355cie.)]TJ
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[(\(C\) O )329(termo )]TJ
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0.0308 Tw -1.843 -1.625 Td
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(48. )Tj
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0.001 Tc 0.125 Tw 1.701 0 Td
(Em rela\347\343o aos tipos de balan\347a anal\355tica e semianal\355tica\
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[(\(B\) )-237(a primeira \351 usada para medir pesos menores que 1 g e )]TJ
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0.26 Tw -1.843 -1.625 Td
[(\(C\) a)25( )]TJ
-0.025 Tc 0 Tw 2.487 0 Td
(primeira \351 calibrada com pesos-padr\343o e a segunda, n\343o.)Tj
0 Tc -2.487 -1.625 Td
[(\(D\) )-205(a primeira tem maior grau de precis\343o que a segunda.)]TJ
0.0528 Tw T*
[(\(E\) )-263(a primeira tem menor grau de confiabilidade que a se-)]TJ
0 Tw 1.843 -1.2 Td
(gunda.)Tj
/T1_1 1 Tf
-3.543 -2.617 Td
(49. )Tj
/T1_0 1 Tf
1.701 0 Td
(Num microsc\363pio \363ptico,)Tj
0.006 Tw T*
[(\(A\) )-199(o diafragma \351 um conjunto de duas ou mais lentes con-)]TJ
0.0548 Tw 1.843 -1.2 Td
[(ver)18(gentes que orientam e espalham regularmente a luz )]TJ
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(emitida pela fonte luminosa sobre o campo de vis\343o.)Tj
-0.0341 Tw -1.843 -1.625 Td
[(\(B\) )-294(o condensador \351 constitu\355do por palhetas que podem ser )]TJ
-0.0223 Tw 1.843 -1.2 Td
(aproximadas ou afastadas do centro, permitindo regular )Tj
0 Tw T*
(a intensidade da luz que incide no campo de vis\343o.)Tj
-0.0405 Tw -1.843 -1.625 Td
[(\(C\) )-300(as objetivas de 1 )85(000x s\343o designadas objetivas de imer)20(-)]TJ
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(s\343o, uma vez que \351 necess\341rio colocar uma gota de \363leo )Tj
-0.01 Tc -0.063 Tw T*
[(de imers\343o entre elas e a prepara\347\343o, o qual tem um \355ndice)-10( )]TJ
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(de refra\347\343o semelhante ao do vidro e evita o desvio do )Tj
0 Tw T*
(feixe luminoso para fora da objetiva.)Tj
0.0039 Tc 0.2011 Tw -1.843 -1.625 Td
(\(D\) as )Tj
0.0088 Tc 0.1252 Tw 3.078 0 Td
(objetivas de 100x, 400x e 500x s\343o chamadas de )Tj
0.01 Tc 0.125 Tw -1.235 -1.2 Td
[(objetivas secas, pois entre a prepara\347\343o e a objetiva)10( )]TJ
0 Tc 0 Tw T*
[(existe somente ar)56(.)]TJ
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[(\(E\) )-384(oculares s\343o lentes que ampliam a imagem real fornecida )]TJ
-0.0027 Tc -0.0623 Tw 1.843 -1.2 Td
(pela objetiva, formando uma imagem virtual que se situa )Tj
0 Tc 0 Tw T*
[(a aproximadamente 25 cm dos olhos do observador)57(.)]TJ
/T1_1 1 Tf
-3.543 -2.617 Td
(50. )Tj
/T1_0 1 Tf
0.0049 Tc 0.1251 Tw 1.701 0 Td
(Assinale a alternativa correta em rela\347\343o aos m\351todos de )Tj
0 Tc 0 Tw T*
[(observa\347\343o de micro-or)19(ganismos.)]TJ
-0.02 Tw 0 -1.625 TD
[(\(A\) )-225(A)55( observa\347\343o a fresco, em microsc\363pio \363ptico, entre l\342-)]TJ
-0.002 Tc -0.062 Tw 1.843 -1.2 Td
(mina e lam\355nula \351 a mais utilizada, pois permite verificar )Tj
0 Tc 0 Tw 0 -1.2 TD
(se as bact\351rias est\343o vivas ou n\343o.)Tj
0.066 Tw -1.843 -1.625 Td
[(\(B\) )-194(Sob o estereosc\363pio, pode-se distinguir se um fungo \351 )]TJ
0 Tw 1.843 -1.2 Td
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0.0635 Tw -1.843 -1.625 Td
[(\(C\) )-196(As t\351cnicas de colora\347\343o diferencial s\343o as \372nicas que )]TJ
0 Tw 1.843 -1.2 Td
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0.0001 Tc 0.0046 Tw -1.843 -1.625 Td
[(\(D\) )-200(A)55( colora\347\343o de Gram diferencia as bact\351rias, de acordo )]TJ
0 Tc 0 Tw 1.843 -1.2 Td
(com o tipo de parede que possuem.)Tj
-0.0036 Tc -0.0634 Tw -1.843 -1.625 Td
[(\(E\) )-383(A)55( microscopia em campo escuro \351 pouco usada, pois tem )]TJ
0 Tc -0.0201 Tw 1.843 -1.2 Td
(menor poder de resolu\347\343o que a microscopia em campo )Tj
0 Tw T*
(claro.)Tj
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2.511 2.922 l
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2.549 0.893 2.456 0.722 2.341 0.574 c
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h
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1.657 2.922 l
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1.064 1.142 m
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h
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