Difference between revisions of "Basic Linear Circuits Review"

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===Electric Potential (Volt)===
===Electric Potential (Volt)===
The ''volt'' is a unit for the relative potential energy between two points or two electrodes. The ground is usually assigned a voltage of 0, and used as a reference. Current tends to flow from high voltage to low voltage.
The ''volt'' is a unit for the relative potential energy between two points or two electrodes. The ground is usually assigned a voltage of 0, and used as a reference. Current tends to flow from high voltage to low voltage. Voltage is also known as "electro-motive force," or EMF.
1 volt is equal to 1 joule per coulomb.
1 volt is equal to 1 joule per coulomb.


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==Mechanical Analogues for Resistors, Capacitors, and Inductors==
==Mechanical Analogues for Resistors, Capacitors, and Inductors==
{| border="1" cellspacing="0" cellpadding="5" align="center"
|-
!mechanical !! constitutive equation !! electrical !! constitutive equation
|-
|damper || <math>f=bv\,</math> || resistor || <math>v=Ri\,</math>
|-
|spring || <math>f=k\int vdt </math> || capacitor || <math>v=\frac{1}{C}\int Idt</math>
|-
|mass || <math>f=m\frac{dv}{dt}</math> || inductor || <math>v=L\frac{di}{dt} </math>
|}

Force and voltage are ''effort'' variables.

Velocity and current are ''flow'' variables.

Revision as of 11:49, 13 June 2006

Common Measurements and Units

In the representations of measurements such as charge, voltage, current, and power, an uppercase letter (C, V, I, P) implies that it is constant, and a lowercase letter (c,v,i,p) implies that it is time-variant.

Charge (Coulomb)

Protons are positive charges, and electrons are negative charges. Charges in motion is a current. The SI unit for charge is the coulomb, which is equivalent to the amount of charge the current (in amperes) delivers in an amount of time (in seconds). 1 coulomb is equal to 1 ampere multiplied by 1 second.

Electric Potential (Volt)

The volt is a unit for the relative potential energy between two points or two electrodes. The ground is usually assigned a voltage of 0, and used as a reference. Current tends to flow from high voltage to low voltage. Voltage is also known as "electro-motive force," or EMF. 1 volt is equal to 1 joule per coulomb.

Current (Ampere)

An electric current represents electric charges flowing through a conductor. By tradition, the current is modeled as a flow of positive charges, even though it was later discovered that current is in fact a flow of negative charges. The ampere, or amp, is the unit for the current, and is determined by the rate of flow of the charges. 1 amp is equal to 1 coulomb per second.

or

Since current is the rate of charge flowing through a certain cross section of conductor, we can get the total charge that has flowed through the same cross section over a period of time by integrating the current over time.

Power (Watt)

The power absorbed or produced by a component is the rate at which it expends or generates energy. The unit for power is the watt, and 1 watt is equal to 1 joule per second. Written in terms of voltage and current, the power is equal to the voltage across the component multiplied by the current through the component. Thus, we get:

If we check the units for the equation above, we get:

Capacitance (Farad)

The unit of measurement for the capacitance of a capacitor is the farad, which is equal to 1 coulomb per volt.

Common Electrical Components

Symbols, Variables, and Units
symbol variable units
current source File:Current source symbol.jpg I Ampere (A)
voltage source File:Voltage source round symbol.jpg or File:Voltage source batt symbol.jpg V Volt (V)
resistor File:Resistor symbol.jpg R Ohm ()
capacitor File:Capacitor symbol.jpg or File:Capacitor polarized symbol.jpg (polarized) C Farad (F)
Inductor File:Inductor symbol.jpg L Henry (H)

Mechanical Analogues for Resistors, Capacitors, and Inductors

mechanical constitutive equation electrical constitutive equation
damper resistor
spring capacitor
mass inductor

Force and voltage are effort variables.

Velocity and current are flow variables.