Series Circuit

Category: Electricity, Force
Last Updated: 08 Sep 2020
Pages: 2 Views: 164

Chapter 4

These are:

    Order custom essay Series Circuit with free plagiarism report

    feat icon 450+ experts on 30 subjects feat icon Starting from 3 hours delivery
    Get Essay Help
  1. A source of voltage.
  2. A load.
  3.  A complete path.

VS + R3 R1 R2 

Because there is only one path, the current everywhere is the same. For example, the reading on the first ammeter is 2. 0 mA, What do the other meters read?

+ 2. 0 mA _ VS _ R1 + 2. 0 mA _ R2 2. 0 mA + _ 2. 0 mA +

The total resistance of resistors in series is the sum of the individual resistors. For example, the resistors in a series circuit are 680? , 1. 5 k? , and 2. 2 k?. What is the total resistance? R1 VS 12 V 680? R2 1. 5 k? 4. 38 k? R3 2. 2 k?

The sum of all the voltage drops around a single closed path in a circuit is equal to the total source voltage in that closed path. KVL applies to all circuits, but you must apply it to only one closed path. In a series circuit, this is (of course) the entire circuit.  Notice in the series example given earlier that the sum of the resistor voltages is equal to the source voltage.

I1= 2. 74 mA I2= 2. 74 mA I3= 2. 74 mA IT= 2. 74 mA R1= 0. 68 k? R2= 1. 50 k? R3= 2. 20 k? RT= 4. 38 k? V1= 1. 86 V P1= 5. 1 mW V2= 4. 11 V P2= 11. 3 mW V3= 6. 03 V P3= 16. 5 mW VS= 12 V PT= 32. 9 mW

The voltage drop across any given resistor in a series circuit is equal to the ratio of that resistor to the total resistance, multiplied by source voltage. Voltage divider Summary R1 15 k? VS + 20 V R2 10 k? What is the voltage across R2? The total resistance is 25 k?.

Applying the voltage divider formula: R2 V2 = ? ? RT ? ? 10 k? ? ? VS = ? ? 20 V = 8. 0 V ? 25 k? ? ? Notice that 40% of the source voltage is across R2, which represents 40% of the total resistance. Electric

Voltage dividers can be set up for a variable output using a potentiometer. In the circuit shown, the output voltage is variable.

VS + 15 V R1 20 k? R2 10 k

Cite this Page

Series Circuit. (2017, Mar 03). Retrieved from https://phdessay.com/series-circuit/

Don't let plagiarism ruin your grade

Run a free check or have your essay done for you

plagiarism ruin image

We use cookies to give you the best experience possible. By continuing we’ll assume you’re on board with our cookie policy

Save time and let our verified experts help you.

Hire writer