Title: From Last Time
1From Last Time
Electric dipole
2- Exam 1
- Wed. Feb. 20, 530-7 pm
Covers Chap. 21.5-7, 22-23,25-26 lecture, lab,
discussion, HW
8 1/2 x 11 handwritten note sheet (both sides)
allowed
Students with schedule class conflicts stay
after lecture today to arrange time
Review Group/Quiz (solutions on website). Review
lab question sheets. Review sample exams on
website. HW4 (due Fri. next week) covers exam
material.
3From Last Time
Electric dipole
4Unusual dipolesElectrogenic fish
- Dipole nearby conducting object
Some fish generate charge separation - electric
dipole. Dipole is induced in nearby (conducting)
fish Small changes detected by fish.
5The idea of electric fields
- EM wave made up of oscillating electric and
magnetic fields. - But what is an electric field?
- Electric field is a way to describe the force on
a charged particle due to other charges around
it. - Force charge ? electric field
- The direction of the force is the direction of
the electric field.
6Electric field of a point charge
Force on this charge
due to this charge
Force/unit charge Units?
N/C
7Question
- Which vector best represents the electric field
at the red dot?
A
B
E
C
D
-
-
8Electric field
- Electric field vector defined at every point in
space. - Gives magnitude and direction of force on test
particle
e.g. wind velocity (speed and direction) in
different parts of the country.
9Relationship Between F and E
- Fe qE
- This is valid for a test charge small
- enough that it does not disturb the
- source charge distribution
- If q is positive, F and E are in the same
direction
Electric field 1Å away from proton
E
(to the right)
10Electric Field Direction
- a) q is positive, F is directed away from q
- b) The direction of E is also away from the
positive source charge - c) q is negative, F is directed toward q
- d) E is also toward the negative source charge
11Superposition with Electric Fields
- At any point P, the total electric field due to a
group of source charges equals the vector sum of
electric fields of all the charges
- Find the electric field due to q1, E1
- Find the electric field due to q2, E2
- E E1 E2
- Remember, the fields add as vectors
12Quick Quiz
Which is the direction of the electric field at
dot? A. Left B. Right C. Up D. Down E.
Zero
Away from positive charge (right)
y
-
x
Net E field is to right.
13Quick Quiz
- In this electric dipole, what is the direction of
the electric field at point A? - Up
- Down
- C) Left
- D) Right
- E) Zero
A
x-a
xa
Q
-Q
14Electric field summary
- Electric field -gt will be a force on a charged
particle. - This force ( and electric field) can arise from
electric charges (via Coulombs law) - But once electric field is known, dont need to
know the charges that produce it.
15Calculating dipole electric field
y
x
For
-
Since points from - charge to charge
on y-axis of dipole only
16Question electric dipole
- A and B are the same (large) distance from
dipole. How do the magnitude of the electric
fields at A and B compare?
-
-
-
-
17Pictorial representation of E Electric Field
Lines
18Electric field lines
- Local electric field tangent to field line
- Density of lines proportional to electric field
strength - Fields lines can only start on charge
- Can only end on - charge.
- Electric field lines can never cross
19Point particles
20Electric field of a dipole
21Electric field of two charges
22Question
How are the charges A and B related?
- A, B-,
- A-, B,
- A, B-,
- A-, B,
- A, B-,
23Hydrogen Atom Example
- The magnitude of the electric force between the
electron and proton - Fe kee -e / r2 8.2 x 10-8 N, r 0.53 x
10-10 m - The gravitational force between the electron and
the proton - Fg Gmemp / r2 3.6 x 10-47 N
- me 9.11 x 10-31 kg, mp 1.67 x 10-27 kg
- G 6.67 x 10-11 N m2/kg2
- Fe/Fg 2 x 1039