Due to Continuous Charge Distributions



Due to Continuous Charge Distributions Continuous Charge Distributions 

 

Due to a Charged Rod



  

Due to a Ring of Charge 



   

Due to a Disk of Charge



Electric Field Lines 

Homework




Due to Continuous Charge Distribution The electric field at 



due to the element of charge



is

  







 



 



 

The total electric field at due to all the elements in the charge distribution is approximately 









 



  



 






Due to Continuous Charge Distribution (cont’d) The total electric field due to the continuous charge distribution is +

 



$ #  %'& "!

( 



  



 )

(* 







Charge Densities Linear charge density, , is defined as charge per unit length (units are coulombs per meter) 

,

–

If a total charge length , then .

,

is uniformly distributed along a line of -

-

/0.

Surface charge density, , is defined as charge per unit area (units are coulombs per square meter) 

1

–

If a total charge area , then



2

1

is uniformly distributed on a surface of -

-

/32

Volume charge density, , is defined as charge per unit volume (units are coulombs per cubic meter) 4

–

If a total charge volume , then 5

4

is uniformly distributed throughout a -

-

/65




Due to a Charged Rod



8

7=


7

>@?



>@?

8

7 :

9

> A

.CBED *

>@? D



8

7 :

9

8 >

A

KML L .CBFD L :

9

A

.CBFD

GH

D

J H

* HI

>@?

N >

D 

8

9

VXW :

8 W

SUT :

9

R

VXW R

W

W A

OP J P

J SUT

PQ R

R 9



W A PQ

9 A

S

Z

R



If R

_

Z

:

S[T R]\

S

S[T R

8

S[T R

P

Y

:

8

OP

then

`

Z

R^\

9;: -

Dba

From far away the rod looks like a point charge!

R]\

Y




Due to a Ring of Charge

Figure 19.15 

8

7=< :

9

8

7]d A

: 9

7

c"?



e

8



7

fhgjiUk

c"?

8

7]d A

: 9

fhgji[k

7 l T >@?

fhgji[k

8

8 >

>

T c

>@?

e

R=?

: 9



R=?nm

8

7]d A

>

7

l T >

R ?

mpo ?

? /

9;: 

8 e

 e

8

A >

7

7]d

*

* l T >



9 e

R ?

?

:

8

l

A

8

ZrqtsuR^\

T >@?

: 9

>

R=?vm

o

/

?

? /

mpo

>

l T >@?

R=?nm

o

/

?




Due to a Ring of Charge

Figure 19.15 : 9 

e

8 >

l T >

R ?



?nm

`

o

/

?

9;: e

If >

_

R

then -

a

From far away the ring looks like a point charge!




Due to a Disk of Charge dr r

dE

P

x R

: 9



: 9

7=< 8

7 8

>

>yx

Zrqtszc;\

c

7

l T >@?



8



8

l ?

/ o

cw?nm

T >@?

? /

7 :

9

o

cw?nm

c

c

7 qts

>yx

*

} *|{ l

T >@?



8

cw?nm

?

L L

GH

>yx

{

J H HI T >@?

8

/

KML

9;: qts



o

N

c"?

9;:

}

V W >

W W

qts

OP x P PQ T



8

~

>@? J

x

Y ?

VXW >

W W

OP P PQ

q)

8

€



}

T >@? J

~ ?

Y

8

~

For we have which is the magnitude of the electric field due to an infinite sheet of charge. 1

?vƒ‚




Due to a Disk of Charge (cont’d) dr r

dE

P

x R



8

: 9

V W >

W W

qts

OP x P PQ T > J

~

?

Y ?

V W W W 

8

W

: 9

OP W P

qts

W P

x P P P

…

… P PQ

J

W J

„…

W e

T

a † J



8

GH

qts

H

OP H

P

P

HI

For

PQ J

W / W  W

KML L L L L L L ?

‡

W

P H

~

V W ?

T

H x H

>

a

~ :

9

Y

{

> J

? Y

N

we can use the binomial expansion

_

8 T Z

ˆ \ / 

ˆ ?

T

ˆ

J

‡

J

J

q J

ˆ ?

‰‹Š

q J ‰Œ



8

9 qts

~

: GH

OP H

P

P HI

H

J P

J

V W M K L W L W L W L W L

? T

H x

PQ J



ŽŽŽ

q

ŽŽŽ >@? Y N



J




Due to a Disk of Charge (cont’d) dr r

P

x R



8

OP qts

P x

9

:

W W W ŽŽŽ

J P PQ

`

W

?

T P



V W ~

: 9

J

q J

~ ?

s

>@?

x

8

9

>@? Y

:

>@?

From far away the disk looks like a point charge!

dE

Electric Field Lines The electric field vector E is tangent to the electric field line at each point. 



The number of electric field lines per unit area through a surface that is perpendicular to the lines is proportional to the magnitude of the electric filed in that region.

Homework Set 13 - Due Fri. Apr. 30 

Read Section 19.6 

Answer Questions 19.10 & 19.11 

Do Problems 19.16, 19.17, 19.18 & 19.20