Announcements  EXAM 3 is scheduled for Thursday, April 16!  Homework for tomorrow… Ch. 34: Probs. 12, 17, 20, & 22 CQ4: a) CWb) no currentc) CCW 33.10:

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Announcements  EXAM 3 is scheduled for Thursday, April 16!  Homework for tomorrow… Ch. 34: Probs. 12, 17, 20, & 22 CQ4: a) CWb) no currentc) CCW 33.10: a) 8.7 x Tm 2 b) CW 33.12: 5.0 A, CW 33.14: 4.7 T/s, increasing  Office hours… MW 12:30-1:30 pm TR 9-10 am F 1-2 pm  Tutorial Learning Center (TLC) hours: MW 8-10 am, 12-6 pmR 8-12 pm, 2-6 pm T 8-1 pm, 2-6 pmF 8-10 am, 2-5 pm

Chapter 34 Electromagnetic Fields & Waves (EM Waves & Properties of EM Waves)

 Faraday speculated that light was connected with electricity & magnetism.  James Clerk Maxwell, using his equations of the electromagnetic (EM) field was the 1st to understand that light is an oscillation of the EM field. Maxwell’s equations predict that: 1. EM waves can exist at ANY frequency, NOT just at the frequencies of visible light. 2. All EM waves travel in a vacuum with the SAME speed, a speed that we now call the speed of light. 34.5: Electromagnetic Waves

 This figure shows the E-field & B-field at points along the x-axis, due to a passing EM wave.  The oscillation amplitudes are related by: 34.5: Electromagnetic Waves

 The figure shows the fields due to a plane wave, traveling to the right along the x-axis.  The fields are the same everywhere in any yz-plane perpendicular to x.  This is a small section of the xy-plane, at a particular instant of time. 34.5: Electromagnetic Waves

 This figure shows the fields due to a plane wave, traveling toward you, along the x-axis.  If you watched a movie of the event, you would see the E-field and B-field at each point in this plane oscillating in time, but always synchronized with all the other points in the plane. 34.5: Electromagnetic Waves

Maxwell’s field equations predict EM waves with wave speed: 34.5: Electromagnetic Waves

Maxwell’s field equations predict EM waves with wave speed: 34.5: Electromagnetic Waves

Maxwell’s field equations predict EM waves with wave speed: Notice:  ε 0 and μ 0 where determined by the size of E and B due to point charges and have nothing to do with waves!  Maxwell’s eqns predict that E- & B-fields can form a self- sustaining EM wave if that wave travels at the above speed! 34.5: Electromagnetic Waves

ALL EM waves must satisfy four basic conditions: 1. The E-fields and B-fields are perpendicular to the direction of propagation. The EM wave is a transverse wave. 2. The E- and B-fields are perpendicular to each other in a manner such that is in the direction of the propagation. 3. The wave travels in vacuum at a speed of 4. at any point on the wave. 34.6: Properties of Electromagnetic Waves

Quiz Question 1 An EM plane wave is coming toward you, out of the screen. At one instant, the E-field looks as shown. Which is the wave’s B-field at this instant? E. The B-field is instantaneously zero.

Quiz Question 2 In which direction is this EM wave traveling? 1. Up. 2. Down. 3. Into the screen. 4. Out of the screen. 5. These are not allowable fields for an EM wave.

The energy flow of an EM wave is described by the Poynting vector, defined by Energy & Intensity Notice:  The Poynting vector points in the direction in which the EM wave is traveling!  SI units?

The energy flow of an EM wave is described by the Poynting vector, defined by Energy & Intensity Notice:  The Poynting vector points in the direction in which the EM wave is traveling!  SI units? S measures the instantaneous rate of energy transfer per unit area of the wave.

 The Poynting vector is a function of time, oscillating from 0 to S max and back to 0 twice during each period of the wave’s oscillation.  Of more interest is the average energy transfer, averaged over one cycle of oscillation, which is the wave’s intensity.  The intensity of the EM wave is… Energy & Intensity

 The Poynting vector is a function of time, oscillating from 0 to S max and back to 0 twice during each period of the wave’s oscillation.  Of more interest is the average energy transfer, averaged over one cycle of oscillation, which is the wave’s intensity.  The intensity of the EM wave is… Energy & Intensity

 The intensity of a wave fall off with distance.  If a source with power P source emits EM waves uniformly in all directions, the EM wave intensity at distance r from the source is Energy & Intensity