question -+ -+ -+ -+ ++++++ ------ a) ++++++ ------ b) -+ -+ -+ -+ c) +- +- +- +- ------ ++++++ d) e...

Question

-+-+

-+-++

++

---

A)

+++

---

B)

-+-+

-+-+C)

+-+-+-

+----

+++

D)

E

An electric field polarizes a metal block as shown below. Selectthe diagram that represents the final state of the metal.

Chapter 16

Electric Field of Distributed Charges

Distributed Charges

Length: LCharge: Q

What is the pattern of electric fieldaround the rod?Cylindrical symmetry

Uniformly Charged Thin Rod

Could the rod be a conductor and be uniformly charged?

General Procedure for Calculating Electric Field of Distributed Charges

1. Cut the charge distribution into pieces for which the field is known

2. Write an expression for the electric field due to one piece(i) Choose origin(ii) Write an expression for DE and its components

3. Add up the contributions of all the pieces(i) Try to integrate symbolically(ii) If impossible – integrate numerically

4. Check the results:(i) Direction(ii) Units(iii) Special cases

Apply superposition principle:Divide rod into small sections Dy with charge DQ

Assumptions:Rod is so thin that we can ignore its thickness.

If Dy is very small – DQ can be considered as a point charge

Step 1: Divide Distribution into Pieces

∆𝐸

>

>

𝑦 0

>

,

𝑥

What variables should remain in our answer? ⇒ origin location, Q, x, y0

What variables should not remain in our answer? ⇒ rod segment location y, DQ

y – integration variable

Vector r from the source to the observation location:

Step 2: E due to one Piece

>

>

𝑦 0

,

𝑥

𝑟∆𝐸

Magnitude of r:

Unit vector r:

Magnitude of E:


>

>

𝑦 0

,

𝑥

𝑟∆𝐸


>

>

𝑦 0

,

𝑥

𝑟

Vector ΔE:


>

>

𝑦 0

,

𝑥

𝑟

DQ in terms of integration Dy:

Components of :


>

>

,

𝑟

∆𝐸

∆𝐸𝑥

∆𝐸 𝑦

Simplified problem: find electric field at the location <x,0,0>

Step 3: Add up Contribution of all Pieces

∆𝐸1

∆𝐸2

𝑥 ∆𝐸❑

Numerical summation:

Assume: L=1 m, Dy=0.1 m, x=0.05m

if Q=1 nC D Ex=286 N/C

Increase precision:

10 slices 31.75 [Q/(4pe0)]

20 slices 39.31 [Q/(4pe0)]

50 slices 39.80 [Q/(4πe0)]

100 slices 39.80 [Q/(4πe0)]


Integration: taking an infinite number of slices

definite integral


Evaluating integral:

Cylindrical symmetry:replace xr


In vector form:

Step 4: Check the results:

Direction:

Units:

Special case r>>L:

E of Uniformly Charged Thin RodAt center plane

Very long rod: L>>r

Q/L – linear charge density

1/r dependence!

Special Case: A Very Long Rod

At distance r from midpoint along a line perpendicular to the rod:

For very long rod:

Field at the ends:

Numerical calculation

E of Uniformly Charged Rod

General Procedure for Calculating Electric Field of Distributed Charges

1. Cut the charge distribution into pieces for which the field is known

2. Write an expression for the electric field due to one piece(i) Choose origin(ii) Write an expression for DE and its components

3. Add up the contributions of all the pieces(i) Try to integrate symbolically(ii) If impossible – integrate numerically

4. Check the results:(i) Direction(ii) Units(iii) Special cases

Origin: center of the ringLocation of piece: described by q, where q = 0 is along the x axis.

Step 1: Cut up the charge distribution into small pieces

Step 2: Write E due to one piece

A Uniformly Charged Thin Ring

Step 2: Write DE due to one piece



Components x and y:



Component z:


Step 3: Add up the contributions of all the pieces


Step 4: Check the results

Direction

Units

Special cases:

Center of the ring (z=0): Ez=0

Far from the ring (z>>R):


Distance dependence:

Far from the ring (z>>R):

Close to the ring (z<<R): Ez~z

Ez~1/z2


Electric field at other locations: needs numerical calculation


Section 16.5 – Study this!

A Uniformly Charged Disk

question -+ -+ -+ -+ ++++++ ------ a) ++++++ ------ b) -+ -+ -+ -+ c) +- +- +- +- ------ ++++++ d) e...

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