EMEC - Greg: Difference between revisions

Latest revision as of 13:17, 7 January 2010

Definitions

Symbol	Units	Name	Definition
		Flux	A scalar value. The rate of transfer of energy (or another physical quantity) per unit area. <ref> Wiktionary - Flux </ref>
${\overrightarrow {E}}$	${\frac {V}{M}}$	Electric field (intensity/strength)	The space surrounding an electric charge. It will exert a force on other electrically charged objects.
${\overrightarrow {D}}$	${\frac {C}{M^{2}}}$	Electric (flux density/displacement field)	The amount of electric flux in a unit area perpendicular to the direction of electric field
${\overrightarrow {H}}$	${\frac {A}{M}}$	Magnetic field (intensity/strength)	A magnetic field is a vector field which surrounds magnets and electric currents, and is detected by the force it exerts on moving electric charges and on magnetic materials. <ref> Magnetic field </ref>
${\overrightarrow {B}}$	$T={\frac {W}{M^{2}}}$	Magnetic (flux density/induction)	The amount of magnetic flux in a unit area perpendicular to the direction of magnetic flow <ref> Magnetic flux density </ref>

Electric field lines <ref> Electric field lines</ref>

Electric flux density <ref> Electric flux density </ref>

Analogies between Electric & Magnetic Circuits

Electric	Magnetic	Notes
$V=\int {\overrightarrow {E}}{\overrightarrow {dl}}$	${\overrightarrow {F}}=\int {\overrightarrow {H}}{\overrightarrow {dl}}$
$\sum _{n}V_{n}=0=\oint {\overrightarrow {E}}{\overrightarrow {dl}}$	$\oint {\overrightarrow {H}}{\overrightarrow {dl}}=Ni=\sum _{n}Hl+Ni=0$	Kirchoff's voltage law, Ampere's law
$\sum _{n}I_{n}=0=\oint _{S}{\overrightarrow {J}}{\overrightarrow {dS}}$	$\oint {\overrightarrow {B}}{\overrightarrow {dS}}=0$	Kirchoff's current law, The B-field has to go around in a loop
$\oint {\overrightarrow {J}}{\overrightarrow {dS}}=I$	$\int {\overrightarrow {B}}{\overrightarrow {dS}}=\Phi$	Magnetic flux, Phi
$R={\frac {V}{I}}$	${\mathfrak {R}}={\frac {F}{\Phi }}={\frac {Ni}{\Phi }}$	Reluctance
$I={\frac {V}{R}}=GV$ or ${\overrightarrow {J}}=\sigma {\overrightarrow {E}}$	${\overrightarrow {B}}=\mu H$	Assumes linearity - exceptions: Hysterisis loop, etc

References

@@ Line 1: / Line 1: @@
 ===Definitions===
+[http://en.wikipedia.org/wiki/Electromagnetism#Units Electromagnetism Units]
 {| class="wikitable" border="1"
-! Symbol !! Units !! Name
+! Symbol !! Units !! Name !! Definition
 |-
+|
-| <math>\overrightarrow{E}</math>|| <math>\frac{V}{M}</math> || Electric Field Intensity
+|
+| Flux
+|  A scalar value. The rate of transfer of energy (or another physical quantity) per unit area. <ref>  [http://en.wiktionary.org/wiki/flux#Noun Wiktionary - Flux] </ref>
 |-
-| <math>\overrightarrow{D}</math>|| <math>\frac{C}{M^2}</math> || Electric Flux Density
+| <math>\overrightarrow{E}</math>
+| <math>\frac{V}{M}</math>
+| Electric field (intensity/strength)
+| The space surrounding an electric charge. It will exert a force on other electrically charged objects.
 |-
-| <math>\overrightarrow{H}</math>|| <math>\frac{A}{M}</math> || Magnetic Field Intensity
+| <math>\overrightarrow{D}</math>
+| <math>\frac{C}{M^2}</math>
+| Electric (flux density/displacement field)
+| The amount of electric flux in a unit area perpendicular to the direction of electric field
 |-
-| <math>\overrightarrow{B}</math>|| <math>T = \frac{W}{M^2}</math> || Magnetic Flux Density
+| <math>\overrightarrow{H}</math>
+| <math>\frac{A}{M}</math>
+| Magnetic field (intensity/strength)
+| A magnetic field is a vector field which surrounds magnets and electric currents, and is detected by the force it exerts on moving electric charges and on magnetic materials. <ref> [http://www.rfcafe.com/references/electrical/magnetic-field.htm Magnetic field] </ref>
+|-
+| <math>\overrightarrow{B}</math>
+| <math>T = \frac{W}{M^2}</math>
+| Magnetic (flux density/induction)
+| The amount of magnetic flux in a unit area perpendicular to the direction of magnetic flow <ref> [http://wordnetweb.princeton.edu/perl/webwn?s=magnetic%20flux%20density Magnetic flux density] </ref>
 |}
+[[Image:fieldlines.jpg|thumb|300px|Electric field lines <ref> [http://www.molcad.de/competence/fieldlines.html.en Electric field lines]</ref> ]]
+[[Image:Electflux.jpg|thumb|300px|Electric flux density <ref> [http://www.bun.kyoto-u.ac.jp/~suchii/maxwell.eq.html Electric flux density] </ref> ]]
 ===Analogies between Electric & Magnetic Circuits===
 {|class="wikitable" border="1"
@@ Line 20: / Line 42: @@
 | <math>\sum_{n} V_{n} = 0 = \oint \overrightarrow{E} \overrightarrow{dl}</math>
 | <math>\oint \overrightarrow{H} \overrightarrow{dl} = N i = \sum_{n} H l + N i = 0 </math>
-|Kirchoff's voltage law
+|Kirchoff's voltage law, Ampere's law
 |-
 | <math>\sum_{n} I_{n} = 0 = \oint_{S} \overrightarrow{J} \overrightarrow{dS}</math>
@@ Line 38: / Line 60: @@
 | Assumes linearity - exceptions: Hysterisis loop, etc
 |}
+===References===
+<references/>

EMEC - Greg: Difference between revisions

Latest revision as of 13:17, 7 January 2010

Definitions

Analogies between Electric & Magnetic Circuits

References

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