OBJECTIVE TLW, with 100% participation, differentiate between wavelengths of the electromagnetic spectrum, identify uses of each, and examine how these properties are imperative in obtaining information pertaining to the universe.
Brainpop: Electromagnetic Spectrum Answer the 10 questions on your handout after watching the Brainpop video. Upon completing your Cornell Notes, you will finish the other side and submit for grading. This is due at the end of the period.
Electromagnetic Radiation Conceptual Physics J. Beauchemin 2009
Waves… a review Most waves are either longitudinal or transverse. Mechanical/Sound waves are longitudinal. But all electromagnetic waves are transverse…
Anatomy of a Wave Wavelength: the distance between the tops of two adjacent crests or bottom of two adjacent troughs Crest: the highest point of a wave Trough: the lowest point of a wave Frequency: number of wavelengths that pass a given point in one second, measured in Hertz (Hz) Amplitude: the maximum extent of a vibration or oscillation, measured from the position of equilibrium.
Anatomy of a Wave crest trough wavelength amplitude
Electromagnetic waves Produced by the movement of electrically charged particles Can travel in a “vacuum” (they do NOT need a medium Travel at the speed of light Also known as EM waves
Wave-particle Duality Light can behave like a wave or like a particle A “particle” of light is called a photon
Radio waves Longest wavelength (lowest frequency) EM waves Uses: TV broadcasting AM and FM broadcast radio Avalanche beacons Heart rate monitors Cell phone communication
Microwaves Wavelengths from 1 mm- 1 m Uses: Microwave ovens Bluetooth headsets Broadband Wireless Internet Radar GPS
Infrared Radiation Wavelengths in between microwaves and visible light Uses: Night vision goggles Remote controls Heat-seeking missiles
Visible light Only type of EM wave able to be detected by the human eye Violet is the highest frequency light Red light is the lowest frequency light
Ultraviolet Shorter wavelengths than visible light Uses: Black lights Sterilizing medical equipment Water disinfection Security images on money
Ultraviolet (cont.) UVAUVB and UVC EnergyHighest of UV waves Lower than UVA Health risks Extremely low risk for DNA damage Can destroy Vitamin A in skin Can cause DNA damage, leading to skin cancer Responsible for sunburn
X-rays Tiny wavelength, high energy waves Uses: Medical imaging Airport security Inspecting industrial welds
Gamma Rays Smallest wavelengths, highest energy EM waves Uses Food irradiation Cancer treatment Treating wood flooring
Image credits 1. education.co.uk/New_items/MUS/images/Making6.gif education.co.uk/New_items/MUS/images/Making6.gif 2. in12.jpg in12.jpg ctrum.jpg ctrum.jpg headset.jpg headset.jpg on%20goggles.jpg on%20goggles.jpg network.com/direct/dbimage/ /Study_Remote_Control.jpg network.com/direct/dbimage/ /Study_Remote_Control.jpg SM%20brand%20imagemed.jpg SM%20brand%20imagemed.jpg
Image Credits bd1.jpg?v= bd1.jpg?v= images/contexts/see_through_body/sci_media/neck_x_ra y/ eng-NZ/neck_x_ray_full_size_portrait.jpg images/contexts/see_through_body/sci_media/neck_x_ra y/ eng-NZ/neck_x_ray_full_size_portrait.jpg content/uploads/2008/05/airport-security1.jpg content/uploads/2008/05/airport-security1.jpg ml ml mma%20knife%204c.jpg mma%20knife%204c.jpg