Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download PHYS 1022: Chap. 26, Pg 2
Document related concepts
History of electromagnetic theory wikipedia , lookup
Magnetic monopole wikipedia , lookup
Speed of gravity wikipedia , lookup
Negative mass wikipedia , lookup
Circular dichroism wikipedia , lookup
Weightlessness wikipedia , lookup
Aharonov–Bohm effect wikipedia , lookup
Work (physics) wikipedia , lookup
Fundamental interaction wikipedia , lookup
Maxwell's equations wikipedia , lookup
Electromagnetism wikipedia , lookup
Anti-gravity wikipedia , lookup
Field (physics) wikipedia , lookup
Lorentz force wikipedia , lookup
Transcript
PHYS 1022: Chap. 26, Pg 2 1 and Conductors • Coulomb’s Law The Field Model Topics: • Developing a Charge Model • Charge • Insulators PHYS 1022: Chap. 26, Pg 3 New Topic PHYS 1022: Chap. 26, Pg 4 2 There are two kinds of charge: positive (+): glass rubbed by silk negative (–): wax or plastic rubbed by wool like charges repel unlike charges attract Charging by contact direct transfer Charging by induction no contact Can happen to both conductors and insulators separation of charge is called polarization PHYS 1022: Chap. 26, Pg 5 1. positive (+) 2. negative (–) 3. neutral PHYS 1022: Chap. 26, Pg 6 3 1. positive (+) 2. negative (–) 3. neutral PHYS 1022: Chap. 26, Pg 7 1. positive (+) 2. negative (–) 3. neutral PHYS 1022: Chap. 26, Pg 8 4 PHYS 1022: Chap. 26, Pg 9 PHYS 1022: Chap. 26, Pg 10 5 New Topic PHYS 1022: Chap. 26, Pg 11 Electric force is a non-contact force (acts at a distance) k = 9 x 109 N m2/C2 The unit for charge is Coulomb (C) The smallest charge: e = 1.6 x 10-19 C. Two 1-C charges separated by 1 m has Coulomb force of 9x109 N! PHYS 1022: Chap. 26, Pg 12 6 +q1 If there are several charges, the net force on any one of them is the vector sum of the individual forces due to all the others. -q Superposition principle +q2 PHYS 1022: Chap. 26, Pg 13 PHYS 1022: Chap. 26, Pg 14 7 1. left 2. right 3. zero PHYS 1022: Chap. 26, Pg 15 PHYS 1022: Chap. 26, Pg 16 8 PHYS 1022: Chap. 26, Pg 17 PHYS 1022: Chap. 26, Pg 18 9 PHYS 1022: Chap. 26, Pg 19 PHYS 1022: Chap. 26, Pg 20 10 1 nC + 2 nC m 1c 1c m + 1 cm + 2 nC PHYS 1022: Chap. 26, Pg 21 New Topic PHYS 1022: Chap. 26, Pg 22 11 Recall our discussion of the two kinds of forces: Contact force: » You push on the desk Hmm... » The ground pushes on the chair » Tension in a rope Faraday and Newton had some trouble with this one PHYS 1022: Chap. 26, Pg 23 PHYS 1022: Chap. 26, Pg 24 12 These isolated Temperatures make up a Scalar Field (you learn only the temperature at a place you choose) PHYS 1022: Chap. 26, Pg 25 You may prefer to know which way the wind is blowing … That would require a VECTOR field. (you learn how fast the wind is blowing AND in what direction) PHYS 1022: Chap. 26, Pg 26 13 Definition of the Electric Field: E ≡ F / qtest PHYS 1022: Chap. 26, Pg 27 M Fg = G 2 m = mg r € M m Q q PHYS 1022: Chap. 26, Pg 28 14 +Q +4Q +Q -Q -Q +Q +Q PHYS 1022: Chap. 26, Pg 29 Superposition principle The field at a given point is a vector sum of the electric field caused by each charge individually. Example: electric dipole Point charges q1=+12nC and q2=-12nC are placed 10 cm apart. This combination of two charges with equal magnitude and opposite sign is called an electric dipole. Compute the electric field at points a, b, and c. PHYS 1022: Chap. 26, Pg 30 15
