Ley De Ohms

Ohm's law states that the current through a conductor between two points is directly proportional to the potential difference across the two points. Introducing the constant of proportionality, the resistance, one arrives at the usual mathematical equation that describes this relationship:

I=V/R

CONNECTION RESISTORS

SERIES RESISTOR

The intensity of the electric power is the same for all resistors. the equivalent resistance of a set of resistors connected in series is:

R_EQ1=(R_1+R_2+R_(3…………….)+R_n )

LA INTENSIDAD DE CORRIENTE ELECTRICA ES LA MISMA PARA TODOS LOS RESISTORES. LA RESISTENCIA EQUIVALENTE DE UN CONJUNTO DE RESISTORES CONECTADOS EN SERIE ES:

PARALLEL RESISTORS

Join in a common point one of the end of each of the resistors and also in other common point the other end. equivalent resistance of a set of n resistors connected in parallel is given by:

1/R_EQ =1/R_1 +1/R_2 +1/R_3 +⋯1/R_n

SE UNEN A UN PUNTO COMUN DE LOS 2 EXTREMOS DE CADA UNO DE LOS RESISTORES E IGUALMENTE EN OTRO PUNTO COMÚN EL OTRO EXTREMO. LA RESISTENCIA EQUIVALENTE DE UN CONJUNTO n RESISTONES CONECTADOS EN PARALELO SE OBTIENE DE:

Recuperado de http://www.elexp.com/tips/clr_code.gif “electronix expres”

BIBLIOGRAPHY

ELECTRICITY AND MAGNETISM –Víctor Serrano Domínguez Graciela García Arana Carlos Gutiérrez Aranza-Editorial Pearson (prentice Hall)-Primera edición 2001-ISBN 968-444-501-6

C.R No.1 (A-B)

R_EQ1=(R_1KΩ+R_330Ω )=1330Ω

R_(EQ2=) (1/(1/R_10KΩ +1/R_EQ1 ))=1173.87Ω

R_EQ3=(R_EQ2+R_47KΩ+R_100KΩ )=148173Ω

R_EQ4=(1/(1/R_220KΩ +1/R_1MΩ ))=180327.86Ω

R_T=(R_EQ4+R_1KΩ )=

C.R No.1 (C-D)

R_EQ1=(R_1KΩ+R_330Ω )=1330Ω

R_(EQ2=) (1/(1/R_10KΩ +1/R_EQ1 ))=1173.87Ω

R_EQ3=(R_47KΩ+R_EQ2 )=48173.87Ω

R_EQ4=(1/(1/R_220KΩ +1/R_1MΩ ))=180327.86Ω

R_EQ5=(1/(1/R_EQ4 +1/R_1KΩ ))=2191.68Ω

R_T=(R_EQ3+R_EQ5 )=48173.87Ω

C.R No.1 (E-F)

R_EQ1=(R_1KΩ+R_330Ω )=1330Ω

R_(EQ2=) (1/(1/R_10KΩ +1/R_EQ1 ))=1173.87Ω

R_EQ3=(R_100KΩ+R_EQ2 )=101173.87Ω

R_EQ4=(1/(1/R_220KΩ +1/R_1MΩ ))=180327.86Ω

R_EQ5=(1/(1/R_1KΩ +1/R_EQ4 ))=994.48Ω

R_EQ6=(R_EQ3+R_EQ5 )=102168.35Ω

R_T=(1/(1/R_47KΩ +1/R_EQ6 ))=32191.22Ω

R.C. No.2 (A-B)

R_EQ1=(1/(1/R_10KΩ +1/R_330Ω ))=319.45Ω

R_EQ2=(R_EQ1+R_1MΩ+R_47KΩ )=1047319.45Ω

R_EQ3=(1/(1/R_EQ2Ω +1/R_1KΩ ))=999.04Ω

R_EQ4=(R_220KΩ+R_EQ3 )=220999.04Ω

(C-D)

R_EQ1=(1/(1/R_10KΩ +1/R_330Ω ))=319.45Ω

R_EQ2=(R_EQ1+R_1MΩ+R_47KΩ )=1047319.45Ω

R_T=(1/(1/R_EQ2 +1/R_1KΩ +1/R_220KΩ ))=994.52Ω

(E-F)

R_EQ1=(1/(1/R_10KΩ +1/R_330Ω ))=319.45Ω

R_EQ2=(1/(1/R_220KΩ +1/R_1KΩ ))=999.04Ω

R_EQ3=(R_EQ1+R_EQ2+R_47KΩ )=48318.49Ω

R_T=(1/(1/R_EQ3 +1/R_1MΩ ))=46091.42Ω

R_Eq1=(1/(1/R_10KΩ +1/R_47KΩ ))=8245.61Ω

R_EQ2=(1/(1/R_100KΩ +1/R_330Ω ))=76744.18Ω

R_EQ3=(1/(1/R_10KΩ

...