Mate

Solo disponible en BuenasTareas
  • Páginas : 5 (1030 palabras )
  • Descarga(s) : 0
  • Publicado : 14 de marzo de 2011
Leer documento completo
Vista previa del texto
PROBLEMAS DE ALTERNA
CIRCUITOS Y LABORATORIOS II

ING. JORGE EDUARDO RAMÍREZ PALMA
NATHALIA RUEDA DIAZ

ESCUELA COLOMBIANA DE CARRRERAS INDUSTRIALES
FACULTAD DE INGENIERIA BIOMEDICA
ELECTROMEDICINA
SEMESTRE II
2011

0 | VI | VRMS | VMEDIO | VPICO | VPP | ANGULO | RADIANES |
1 | 5 | 7,07 | 6,37 | 10 | 20 | 30 | π/6 |
2 | 10,60660172 | 10,605 | 9,55 | 15 | 30 | 45 | π/4 |
3 |51,9779227 | 17,675 | 15,925 | 25 | 50 | 12 | π/15 |
4 | 51,96152423 | 42,42 | 38,22 | 60 | 120 | 60 | π/3 |
5 | 82,10369523 | 60,095 | 54,145 | 85 | 170 | 75 | 5π/12 |
6 | 118,1769304 | 84,84 | 76,44 | 120 | 240 | 100 | 5π/9 |
7 | 28,30465296 | 115,241 | 103,831 | 163 | 326 | 10 | π/18 |
8 | 303,2257562 | 219,17 | 197,47 | 310 | 620 | 78 | 13π/30 |
9 | 1,2 | 0,8484 | 0,7644 | 1,2 | 2,4 |90 | π/2 |
10 | 46,41896164 | 37,8952 | 34,1432 | 53,6 | 107,2 | 120 | 2π/3 |
11 | 92,65369241 | 69,7102 | 62,8082 | 98,6 | 197,2 | 110 | 11π/18 |
12 | 7,033160313 | 12,726 | 11,466 | 18 | 36 | 23 | 23π/180 |
13 | 185,4367709 | 141,1 | 127,4 | 200 | 400 | 68 | 17π/45 |
14 | 3,708203933 | 8,484 | 7,644 | 12 | 24 | 18 | π/10 |
15 | 65,82862246 | 102,515 | 92,365 | 145 | 290 | 27 | 3π/20|
16 | 214,4924441 | 197,96 | 178,36 | 280 | 560 | 50 | 5π/18 |
17 | 240,9021033 | 296,94 | 267,54 | 420 | 840 | 145 | 29π/36 |
18 | 8,856057061 | 36,057 | 32,487 | 51 | 102 | 10 | π/18 |

OPERACIONES:
1. VRMS=VP×O,707 VMEDIO=VP×O,637
VRMS=10×O,707 VMEDIO=10×O,637
VRMS=7,07V VMEDIO=6,36V

θ=sin-1VIVPVP= VPP2
θ=sin-1510 VP= 202
θ=30° VP= 10V

2. VMEDIO=VP×O,637 VPP=VP×2
VMEDIO=15×O,637 VPP=15×2
VMEDIO=9,55V VPP=30V

θ=sin-1VIVPRADIAN=45π180
θ=sin-110,6066017215 RADIAN=π4
θ=45°

3. VI=VP SENθ VRMS=VP×O,707
VI=25 SEN12 VRMS=25×O,707
VI=5,19779227V VRMS=17,675

VP= VMO,637 VPP=VP×2 RADIAN=12π180
VP= 15,9250,637 VPP=25×2RADIAN=π15
VP= 25V VPP=50V

4. VRMS=VP×O,707 VMEDIO=VP×O,6 VP= VMO,637
VRMS=60×O,707 VMEDIO=60×O,637 VP= 38,22O,637
VRMS=42,42V VMEDIO=38,22V VP= 60V

VPP=VP×2 θ=sin-1VIVP
VPP=60×2 θ=sin-151,9615242360
VPP=120Vθ=60°

5. VRMS=VP×O,707 VMEDIO=VP×O,6
VRMS=85×O,707 VMEDIO=85×O,637
VRMS=60,095V VMEDIO=54,145V

VPP=VP×2 θ=sin-1VIVP RADIAN=75π180
VPP=85×2 θ=sin-182,1036952385 RADIAN=5π12
VPP=170V θ=75°6. VRMS=VP×O,707 VMEDIO=VP×O,6 VP= VMO,637
VRMS=120×O,707 VMEDIO=120×O,637 VP= 76,44O,637
VRMS=84,84V VMEDIO=76,44V VP= 120V

VPP=VP×2 RADIAN=100π180
VPP=12O×2 RADIAN=5π9
VPP=240V

7. VMEDIO=VP×O,6 VP= VRMSO,707
VMEDIO=163×O,637VP= 115,241O,707
VMEDIO=103,831V VP= 163V

VPP=VP×2 θ=sin-1VIVP
VPP=163×2 θ=sin-128,30465296163
VPP=326V θ=10°
8. VI=VP SENθ VRMS=VP×O,707 VMEDIO=VP×O,637
VI=310 SEN78 VRMS=310×O,707 VMEDIO=310×O,637...
tracking img