Optical or Photoelectric Smoke Detector Sue Shryock and Sherrie Anderson.

Slides:

Advertisements

Similar presentations

Electromagnetic Waves

Advertisements

Atoms & Light Emission & absorption of radiant energy depends on electrons in atoms Recall: Ground and excited states – moving e between energy levels.

L 32 Light and Optics [2] Measurements of the speed of light  The bending of light – refraction  Total internal reflection  Dispersion Rainbows Atmospheric.

Frequency and Wavelength How are frequency, wavelength, and speed related for electromagnetic radiation in empty space? –speed = frequency x wavelength,

LIGHT. The spectrum consists of all wavelengths of electromagnetic energy. Visible light is only a small portion of this spectrum. The range of visible.

LIGHT A FORM OF ELECTROMAGNETIC RADIATION THAT STIMULATES THE EYE.

Reverse Engineering Project The Smoke Detector

Solar Energy and the Atmosphere

Light travels in straight lines: Laser. Light travels VERY FAST – around 300,000 kilometres per second. At this speed it can go around the world 8 times.

Electromagnetic Waves G1 – The nature of EM waves and light sources.

L 32 Light and Optics [2] Measurements of the speed of light  The bending of light – refraction  Total internal reflection  Dispersion Rainbows Atmospheric.

REFRACTION. When light travels from one material to another it usually changes direction The bending of light that occurs at the borderline of two materials.

Polarization Polarization is a characteristic of all transverse waves.

E-M Spectrum and Waves Prentice Hall Chapter 18.

Chapter 7 Light.

Geometric Optics Light and Geometric Optics – Are you Ready? (25 minutes) Group activity Answer questions on chart paper 5-10 minutes students brainstorm.

Light So far when we have talked about waves we have talked about sound waves. Light is a special type of wave.

L 32 Light and Optics [2] Measurements of the speed of light  The bending of light – refraction  Total internal reflection  Dispersion Rainbows Atmospheric.

METR125: Light, Color, and Atmospheric Optics et130/notes/chapter19/color.html.

Electromagnetic Spectrum. The electromagnetic spectrum covers a wide range of wavelengths and photon energies.

Chapter 10, Section 2 Chapter 22, Section 2. Solar Energy Key Terms: Create a flashcard for each. The words can be found starting on page 555 or use the.

TYPE OF IMAGE Real vs Virtual –Real Images can be seen on a piece of paper or screen placed because the focal point is in front of the mirror or behind.

Chapter 11 Light Waves. Electromagnetic Waves The vibrating electric and magnetic fields in space create the em wave. Travel in transverse motion Range.

L 32 Light and Optics [2] Measurements of the speed of light 

Electromagnetic Radiation (NB Pgs 7-9 odd) Picture pg 8.

Light See what I’m saying?. What Is Light? Electromagnetic Wave (EM): a wave that travels through matter or space and consists of electric and magnetic.

ResourcesChapter menu Bellringer What do you think light is? Is light made of matter? Can light travel through space? Explain your answers in your lab.

1 Cool Tools for Color & Light Presented by Mike Horton Cool Tools for Color & Light Presented by Mike Horton.

L 30 Light and Optics - 2 Measurements of the speed of light (c)

Light and Optics Lecture. What color is white light? What color is a blue sweater? Essentially, what do glasses/contacts do? If you were to throw a rock.

Gamma and X ray interactions

Light Waves Interacting with Matter

Copyright © 2012 Pearson Education Inc. PowerPoint ® Lectures for University Physics, Thirteenth Edition – Hugh D. Young and Roger A. Freedman Lectures.

Light Introduction: Slide 1 Light Introduction. Light Introduction: Slide 2 Light -- an Electromagnetic Wave.

Chapter 16 : Weather Factors Section1 : Energy in the Atmosphere By : Katelyn Angers.

Electromagnetic Radiation. What is light? Wave theory Light travels in waves Is reflects off objects It can pass through other light Particles would bounce.

Section 3 Section 3 Producing Light Incandescent Lights Most of the lightbulbs in your house probably produce incandescent light, which is generated by.

Light, color, and frequency pg. 71. Objectives Describe a light wave. Understand qualitatively the relationship between color, frequency, and wavelength.

Click on the objects to find out and learn about light.

LIGHT: What Is It? Light Energy –Atoms As atoms absorb energy, electrons jump out to a higher energy level. Electrons release light when falling down to.

Light and Color.

Why is the sky blue?.

Origin of The Electromagnetic (EM) Waves

Grade 10 Academic Science

6th Grade – Sound and Light (Mod. J) – Unit 3 Lessons 1 & 2

Chapter 22 The Nature of LiGHT.

Light Waves Interacting with Matter

6a Students know visible light is a small band within a very broad electromagnetic spectrum.

L 32 Light and Optics [2] Measurements of the speed of light 

L 32 Light and Optics [2] Measurements of the speed of light 

Section 2: Solar Energy and the Atmosphere

Light Investigate the properties and behaviors of mechanical and electromagnetic waves Explore and explain the nature of sound and light energy.

Light Waves Interacting with Matter

Light and Sound.

An Electromagnetic Wave

L 32 Light and Optics [2] Measurements of the speed of light 

Energy may ______________________________as a wave travels.

Light See what I’m saying?.

Bell Work: Spring Break

Light and Illumination

Energy may ______________________________as a wave travels.

Light Wave or Particle?.

Presentation transcript:

Optical or Photoelectric Smoke Detector Sue Shryock and Sherrie Anderson

Preview Inner Works Lasers Light Scattering Demonstration Helium-Neon Blurb Sources

Inner Works Inner Works Often when you walk into a store a bell will go off and you may find a photo beam detector is being used. In this case by walking in you have disrupted the light connection to the photodetector. This is how the smoke detector works.

Continued… Photoelectric smoke detectors have two chambers set at a 90 degree angle to one another. In the top chamber there is a light and in the other is a sensor. In the normal setting, the light shoots left straight across and misses the sensor. When smoke enters the chamber, the smoke particles…

Continued… scatter the light and some of the light then hits the sensor, as shown below. The sensor then sets off the horn. Photoelectric sensors detect slow, smoldering fires. The light source is made from a diode laser..

Why do we use Lasers?

We use Lasers because they can go into a curve and come out in a straight line. They do bend when they hit something but all the light bends the same amount and does not spread out. A property of the electrons within the laser is that after being excited they will return to their original state.

L ight A mplification by S timulation E mission of Radiation L ight A mplification by S timulation E mission of Radiation

Light Scattering The Physic behind the Smoke detector

As a light wave travels through the atmosphere, the wave’s oscillating electric field causes the electrons in air molecules to oscillate with the same frequency. These oscillating electrical charges emit electromagnetic radiations (light) that moves in all directions (scattering). Pg. 368

Why is the Sky Blue? Electrons in the air molecules are more efficient at absorbing and radiating higher frequencies of light. When blue light makes an electron oscillate it absorbs and scatters more of the incident radiant energy. The frequency of blue light is about 1.5 times that of red.

Why is the Sunset Red? Affected the ozone and low lying clouds, and with a less amount of blue due to scattering, the red light waves are more abundant and picked up by the air molecules.

Northern Lights This is Earth’s natural version of the way lights scatter when entering our atmosphere.

Demonstration with Helium- Neon Lasers Green Red Yellow

Helium-Neon Blurb The most common and inexpensive gas laser, the helium-neon laser is usually constructed to operate in the red at nm. It can also produce laser action in the green at nm. The glass tube contains 85% helium and 15% neon gas at 1/300 atmospheres pressure.

Sources Inquiry into Physics 3 RD Ed., Ostdiek & Bord