RESISTENCIA EQUIVALENTE EN SERIE Y PARALELO
Enviado por sonia correa • 13 de Octubre de 2018 • Informe • 759 Palabras (4 Páginas) • 120 Visitas
UNIVERSIDAD TECNOLÓGICA DE PANAMÁ
FACULTAD DE INGENIERÍA INDUATRIAL
Lic. en Ingeniería Industrial
Laboratorio de Sistemas Eléctricos
- EXP. N°1
RESISTENCIA EQUIVALENTE EN SERIE Y PARALELO
Nombre:
Sonia Correa
Cédula:
4-800-1663
Grupo:
1II125
Instructor:
Ing. Ángel Hernández
Fecha de entrega
Miércoles 22 de agosto de 2018
Hora de entrega
10:20 am – 11:55 am
Introducción
Conclusión
Bibliografía
WILDI Y DE VITO
ANEXO #1
Figura 1-5
Serie
(a) = 600 Ω[pic 1]
= 300 Ω y = 300 Ω, en serie. [pic 2][pic 3]
= + [pic 4][pic 5][pic 6]
= 300 Ω + 300 Ω[pic 7]
= 600 Ω[pic 8]
(b) = 900 Ω[pic 9]
= 300 Ω y = 600 Ω, en serie. [pic 10][pic 11]
= + [pic 12][pic 13][pic 14]
= 300 Ω y 600 Ω[pic 15]
= 900 Ω[pic 16]
(c) = 2100 Ω[pic 17]
=300 Ω, =600 Ω y =1200 Ω.[pic 18][pic 19][pic 20]
= + + [pic 21][pic 22][pic 23][pic 24]
=300 Ω+600Ω+1200 Ω[pic 25]
= 2100 Ω[pic 26]
(d) = 1200 Ω[pic 27]
= 300 Ω, = 300 Ω y =600 Ω.[pic 28][pic 29][pic 30]
= + + [pic 31][pic 32][pic 33][pic 34]
= 300 Ω + 300 Ω + 600 Ω[pic 35]
= 1200 Ω[pic 36]
(e) = 2100 Ω[pic 37]
= 300 Ω, = 600 Ω y =1200 Ω.[pic 38][pic 39][pic 40]
= + + [pic 41][pic 42][pic 43][pic 44]
= 300Ω+600Ω+1200Ω[pic 45]
= 2100 Ω[pic 46]
Figura 1-6
Paralelo
(a) = 300 Ω[pic 47]
= 600 Ω y = 600 Ω[pic 48][pic 49]
= [pic 50][pic 51]
= [pic 52][pic 53]
= [pic 54][pic 55]
= =[pic 56][pic 57]
= [pic 58][pic 59]
= 300 Ω[pic 60]
(b) = 200 Ω[pic 61]
= 600 Ω y = 300 Ω[pic 62][pic 63]
= [pic 64][pic 65]
= [pic 66][pic 67]
= [pic 68][pic 69]
= [pic 70][pic 71]
= [pic 72][pic 73]
= 200 Ω[pic 74]
(c) = 240 Ω[pic 75]
= 300 Ω y = 1200 Ω[pic 76][pic 77]
= [pic 78][pic 79]
= [pic 80][pic 81]
= [pic 82][pic 83]
= [pic 84][pic 85]
= [pic 86][pic 87]
= 240 Ω[pic 88]
(d) = 150 Ω[pic 89]
=300 Ω, =600 Ω y = 600 Ω[pic 90][pic 91][pic 92]
= [pic 93][pic 94]
= [pic 95][pic 96]
= [pic 97][pic 98]
= [pic 99][pic 100]
= [pic 101][pic 102]
= [pic 103][pic 104]
= [pic 105][pic 106]
= 150 Ω[pic 107]
e) = 171.43 Ω[pic 108]
= 300 Ω, = 600 Ω y = 1200 Ω[pic 109][pic 110][pic 111]
= [pic 112][pic 113]
= [pic 114][pic 115]
= [pic 116][pic 117]
= [pic 118][pic 119]
= [pic 120][pic 121]
= 171.43 Ω[pic 122]
Figura 1-7
(a) = 200 Ω[pic 123]
= 1200 Ω, = 1200 Ω y = 300 Ω[pic 124][pic 125][pic 126]
= [pic 127][pic 128]
= [pic 129][pic 130]
= [pic 131][pic 132]
= [pic 133][pic 134]
= [pic 135][pic 136]
= =200Ω[pic 137][pic 138]
= 200 Ω[pic 139]
(b) = 133.33 Ω[pic 140]
= 300 Ω, = 600 Ω, = 600 Ω y = 1200 Ω[pic 141][pic 142][pic 143][pic 144]
= [pic 145][pic 146]
= [pic 147][pic 148]
=[pic 149][pic 150]
=[pic 151][pic 152]
...