1 / 12

Finish spectrum, visible light, energy of EM waves

Finish spectrum, visible light, energy of EM waves. Radios: How do they work?. AM radio: AM stands for amplitude modulation. Set frequency but radio station varies the amplitude Problems Lots of natural and man-made noise. Weak signals are quieter than strong ones.

caldwell-dunlap
Télécharger la présentation

Finish spectrum, visible light, energy of EM waves

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Finish spectrum, visible light, energy of EM waves

  2. Radios: How do they work? • AM radio: AM stands for amplitude modulation. • Set frequency but radio station varies the amplitude • Problems • Lots of natural and man-made noise. • Weak signals are quieter than strong ones.

  3. Radios: How do they work? • FM radio: FM stands for frequency modulation. • Set amplitude but radio station varies the frequency

  4. Microwave ovens • Water. There are trillions of water molecules in a single drop. The temperature of the water depends on the motion of the molecules. They move with respect to each other and vibrate. • The hotter the water, the more activity.

  5. Microwaves continued • Water molecules absorb microwaves at a certain frequency. This extra energy causes an increased amount of vibrations in the molecules. • As the water molecules vibrate, they bump into other molecules, transferring energy or heat.

  6. Visible Light • A few things you need to know: • For Violet light, λ= 400 nm • For red light, λ= 700 nm • Example: Compare the frequency of red light compared to violet light.

  7. Visible Light • c=fλ Plug in the numbers • Red λ= 700 nm = 700*10-9 m • Violet λ= 400 nm = 400*10-9 m • C=3.00*108 m/s • Frequency of Red light=4.3*1014 Hz • Frequency of Violet light=7.5*1014 Hz • Notice the trend, Violet has a higher frequency than Red

  8. Light Particle • Photon—A discrete unit of light energy • A photon is “localized energy”

  9. Energy of a Photon • E=hf • Energy = constant * frequency • h=Planck’s constant=6.626*10-34 J * Sec

  10. Example • What is the energy of a photon of green light? Wavelength = 550nm • The equation is E=hf. First, find the frequency of green light. • λ=550 nm = 550*10-9 m • C=f λ, f=5.45*1014Hz • E=hf, h=6.62*10-34Jsec • E=3.60*10-19 J

  11. Example 2 • If the energy of a photon is 2.5*10-18 J, what is the frequency of that photon? What is the wavelength? • Answer: Frequency =3.77*1015 Hz • Wavelength = 7.944*10-8 m

More Related