Reading & Homework for 4/20Slide 2Slide 3Slide 4Slide 5Slide 6Slide 7Slide 8Slide 9Slide 10Slide 11Faraday’s Law for a coilSlide 13Slide 14Faraday’s Law generalizedMaxwell’s LawSlide 17Slide 18Reading & Homework for 4/20•Read:–Chapter 26: Properties of Light–Chapter 27: Color–Chapter 28: Reflection and Refraction•Reading Response Questions –on Moodle•Chapter 26 & 27 due (Sunday 4/17 at 11:00 pm)•Chapter 28 due (Wednesday 4/20 at 6:00 pm)•Homework Problems – on Moodle•Practice problems for Chapters 24 & 25What happens when we add a second light bulb in series with the first? Both bulbs light up with A. the same brightness as the single bulb.B. brighter than the single bulb.C. dimmer than the single bulb.D. One bulb will be brighter than the other.What happens to the brightness of bulb A when the switch is closed and B lights up?A. No change in brightness of A.B. A is brighter than before.C. A is dimmer than before.An electron at rest in a stationary magnetic field can be set into motion by a magnetic field.A. TrueB. FalseFaraday’s Law for a coilThe induced voltage in a coil is proportional to the product of the number of loops, the cross sectional area of each loop, and the rate at which the magnetic field changes within those loopsFaraday’s Law generalizedAn electric field is induced in any region of space in which a magnetic field is changing with time.Maxwell’s LawA magnetic field is induced in any region of space in which an electric field is changing with time.Inside a laboratory there is a field. How can you test to find out if it is an electric field or a magnetic