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Review Physics 122 11/10/2018 Lecture XXIV.

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Presentation on theme: "Review Physics 122 11/10/2018 Lecture XXIV."— Presentation transcript:

1 Review Physics 122 11/10/2018 Lecture XXIV

2 Final Exam Saturday, December 17, 8:30 am (sorry!) - Hoygt
Final exam is based on the entire course PHY122. Last homework will be based on the entire course to give you more time to prepare for the final. 40% of the final grade 11/10/2018 Lecture XXIV

3 Grading Workshops: 5% Homework: 5% Hour Exams: 40% Final Exam: 40%
Laboratory: 10% Total: % 90% or above: A – A – B+ 80% - 85% : B – B – C+ 70% - 75%: C – C – D+ 60% - 65%: D Under 60% : F 11/10/2018 Lecture XXIV

4 Electricity and magnetism
The most important concept - electromagnetic field First introduced for convenience Electric charge changes the properties of space around them = creates electric field Other charges feel this change  interaction between electric charges is mediated by the electric field Change in electromagnetic field propagates with finite velocity (c ) = electromagnetic wave – proof that EM field is a reality 11/10/2018 Lecture XXIV

5 Maxwell’s equations = constitution for EM field
Gauss’ law – field lines start on + and end on - No magnetic charge – closed field lines Changing magnetic flux acts like a source of electric field Amper’s law with extra term 11/10/2018 Lecture XXIV

6 Gauss’s law Describes electric field created by electric charges
11/10/2018 Lecture XXIV

7 Gauss Coulomb Calculate E of point like (+) charge Q
Consider sphere radius r centered at the charge Spherical symmetry: E is the same everywhere on the sphere, perpendicular to the sphere 11/10/2018 Lecture XXIV

8 Application of Gauss’s law
Infinitely long thick charged wire, radius R Charge per unit length Q/l=l r>R: r<R: 11/10/2018 Lecture XXIV

9 Amper’s law Describes magnetic field created by moving charges = currents 11/10/2018 Lecture XXIV

10 Ampere’s Law In a way similar to Gauss’s law for E and Q
Not flux, integral over closed path Only component of B parallel to dl contributes to integral 11/10/2018 Lecture XXIV

11 Application of Ampere’s Law
Thick wire of radius R carries current I. What is B(r ) in and outside of the wire? Current through unit area: Current through circle radius r<R Path integral over radius r Ampere’s law For r>R – same as thin wire 11/10/2018 Lecture XXIV

12 Forces on charges Maxwell’s equations tell us about the EM field
They tell nothing about the force that this field exerts on charges – Lorentz force 11/10/2018 Lecture XXIV

13 Crossed fields Electric field changes kinetic energy of charged particle qDV=mv2/2 Magnetic field does not change KE, only direction Lorentz force: Force due to E is parallel to E Force due to B is perpendicular to B and to velocity of moving particle 11/10/2018 Lecture XXIV

14 Motion in electric fields
a is always || to net F Remember v is not always || to a (projectile, circular motion) vx vy vx=const vy=at=tF/m=tEq/m 11/10/2018 Lecture XXIV

15 Magnetic force on moving charge
Magnetic force F is perpendicular to the velocity v of a particle with charge q F=qvB sin q Magnetic field does not change the magnitude of particle’s velocity, only its direction. Charged particles move in circles in constant magnetic field 11/10/2018 Lecture XXIV

16 Magnetic force on moving charge
Circular motion Magnetic force = Centripetal force F=qvB Centripetal acceleration a=v2/R Newton’s second law F=ma qvB=mv2/R In experiments B is known, q=e most of the time, Measure R- measure mv For a given v measure m – magnetic spectrometer 11/10/2018 Lecture XXIV

17 Cyclotron frequency Frequency does not depend on v!
For a given particle type (q,m=const) it depends only on B 11/10/2018 Lecture XXIV

18 Particle selector + Crossed E and B fields:
For one given velocity electric force exactly compensates magnetic force Only particles with this value of velocity emerge from particle selector + 11/10/2018 Lecture XXIV

19 Sources of E and B Sources of E Sources of B In vacuum
Electric charges Changing magnetic field Sources of B Currents Changing electric field In vacuum No currents, no charges 11/10/2018 Lecture XXIV

20 Radiation from an AC antenna
Changing electric field creates magnetic field Changing magnetic field creates electric field Change propagates with a finite velocity Electromagnetic wave – proof of unification 11/10/2018 Lecture XXIV

21 EM wave 11/10/2018 Lecture XXIV

22 EM wave This is the speed of light!!! Light is an EM wave!!!
11/10/2018 Lecture XXIV

23 Energy in EM wave EM waves transport energy Energy density: 11/10/2018
Lecture XXIV

24 11/10/2018 Lecture XXIV

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