Electromagnetic Radiation. Electromagnetic Waves Changing electric and magnetic fields can transmit energy across empty space Energy produced is electromagnetic.

Slides:

Advertisements

Similar presentations

RADIO WAVES, MICROWAVES, INFRARED, VISIBLE, ULTRAVIOLET, X-RAYS, GAMMA RAYS HIGH< wavelength LOW.

Advertisements

How does a Beam of Light Travel?

Waves and Energy Physics, Grade 8.

Light and the Electromagnetic Spectrum

The Electromagnetic Spectrum. The name given to a group of energy waves that are mostly invisible and can travel through empty space Shorter waves have.

Light Electromagnetic and Visible Spectrum. Electromagnetic Waves Consist of changing magnetic and electric fields moving through space at the speed of.

Electromagnetic Waves. Electromagnetic wave is a wave that can travel through empty space or through matter and is produced by charged particles that.

 Electromagnetic Radiation-transverse energy waves produced by electrically charged particles.  Has the properties of both waves and particles.  These.

Electromagnetic Radiation

1.All electromagnetic waves travel at the same speed through space (the speed of light) 2.Gamma rays, X-rays, Ultra-violet waves, Light, Infra-red rays,

 Electromagnetic waves are made from moving charges (protons or electrons)  EM waves are transverse waves  The medium that EM waves pass through are.

The Nature of Electromagnetic Waves. Electromagnetic Radiation  EMR requires no medium to travel- can travel thru a vacuum  Speed  300,000 kilometers.

The Electromagnetic Spectrum

Light. Light Terminology Which is not a measure we use to identify a type of light? A. Wavelength B. Speed C. Frequency D. Energy.

Electromagnetic Waves

Electromagnetic Spectrum

Electromagnetic Waves

Light as a Wave OBJECTIVES:

Visible light and the electromagnetic spectrum. we can’t see all types of light! Visible light is a very small part of a large range of radiations. It.

The Electromagnetic Spectrum (EMS). Electromagnetic Wave An electromagnetic wave is a transverse wave that carries electrical and magnetic energy. The.

The Electromagnetic Spectrum Oooh…aaah. What is it? A spectrum is a RANGE of things The Electromagnetic Spectrum (EM Spectrum) is a RANGE of electromagnetic.

Electromagnetic Spectrum CH 27-Physics (B) Fall, 2010.

Chapter 18 The Electromagnetic Spectrum and Waves

Electromagnetic Waves

Electromagnetic Spectrum The Electromagnetic (EM) Spectrum is just a name that scientists give a bunch of types of radiation when they want to talk about.

Chapter 9.1 Notes Part 2. Infrared Radiation Infrared radiation has wavelengths of about one millimeter. Infrared radiation includes thermal radiation.

The Electromagnetic Spectrum A continuous range of oscillating electric and magnetic waves. The energy in an electromagnetic wave increases as the frequency.

Electromagnetic Waves Examples with differing frequencies, wavelengths and energy levels

Effects of Electromagnetic Waves

1 CHAPTER 13: Electrons in the Atom. 2 Quantum Mechanical Model of the Atom and Ernest Schrodinger The model of the atom was developed based on the study.

Lecture 20 Electromagnetic Waves Nature of Light

Chapter 9.1 Notes Electromagnetic Waves Part 1. A changing electric field can produce a changing Magnetic Field.Magnetic Field. A changing magnetic field.

Energy Kinetic Energy Potential Energy.

Electromagnetic Waves.  EM waves – waves that DO NOT need a medium to travel through, they can travel through a vacuum (empty space)  Examples of EM.

Light Introduction General Information. Light is a Wave Exactly as ocean waves, sound waves, slinky waves... Amplitude Wavelength Frequency Wave speed.

Sound and LightSection 2 EQ: How can I explain the characteristics of waves?

Bellwork What is a transformer? What is a transformer? A device for increasing or decreasing voltage through electromagnetic induction A device for increasing.

Chapter 12 Sections 1 & 2. Electric and Magnetic Fields  An electric charge is surrounded by an electric field  A moving electric charge produces a.

The Electromagnetic Spectrum Coach Smith. EM Spectrum 0 Types 0 Radio 0 Microwave 0 Infrared 0 Visible light 0 Ultraviolet 0 X-rays 0 Gamma rays.

The Nature of Light The Electromagnetic Spectrum.

The Universe and Electromagnetic Spectrum State Objectives 2e. and 4.f.

Electromagnetic Waves Chapter 12. What is an Electromagnetic Wave? Electromagnetic wave – is made by vibrating electric charges and can travel through.

ELECTROMAGNETIC WAVES AND LIGHT. ELECTROMAGNETIC WAVES Electromagnetic Waves travel through empty space or through matter and are produced by charged.

Electromagnetic Radiation. LIGHT Electric fields Exist around electric charges Moving electric fields create magnetic fields Magnetic field perpendicular.

Travel through empty space or through matter and is produced by charged particles that are in motion. An electromagnetic wave is a wave that can A different.

Electromagnetic Spectrum The EM Spectrum What do a radio, heat lamp, the Sun, and an X-ray Machine have in Common? – All four transmit energy.

*Electromagnetic waves are produced by changing the motion of charges or by changing magnetic fields. *Electromagnetic waves can travel through matter,

Sound and LightSection 2 Waves and Particles 〉 How do scientific models describe light? 〉 The two most common models describe light either as a wave or.

Chapter 12 Sections 1 & 2. Warm Up: How is an electromagnetic wave created? How is an electromagnetic wave different from a mechanical wave?

Light Electromagnetic and Visible Spectrum. Electromagnetic Waves Consist of changing magnetic and electric fields moving through space at the speed of.

Waves Transverse Longitudinal.

Electromagnetic Spectrum

9.1 Waves of the Electromagnetic Spectrum

Chapter 3– Electromagnetic Waves

Electromagnetic and Visible Spectrum

Electromagnetic Spectrum.

Electromagnetic Radiation

Electromagnetic Spectrum

The Electromagnetic Spectrum

Electromagnetic Waves

Electromagnetic Waves

Day 12 5/25/11 Topic: Electromagnetic Spectrum (EMS) Objective: I will illustrate the relationship among wavelength, energy, and frequency as illustrated.

Light Ch 27.1 – 27.3 & 28.1 – 28.2 & 28.8 – 28.9.

Electromagnetic Radiation

The Electromagnetic Spectrum

Light Waves Light is an electromagnetic wave.

The Electromagnetic Spectrum

Electromagnetic Waves

Light and the Electromagnetic Spectrum

Electromagnetic Spectrum and Color

Presentation transcript:

Electromagnetic Radiation

Electromagnetic Waves Changing electric and magnetic fields can transmit energy across empty space Energy produced is electromagnetic radiation

Speed, Wavelength, and Frequency of EM Radiation c (speed of light) = 3.00 x 10 8 m/s c = λf as wavelength increases, frequency decreases and vice versa

The Electromagnetic Spectrum Range of wavelengths Logarithmic scale because it spans such a large range of values

Radio Waves Radio, television, cell phones Transducers—convert sound into electrical signals FM—frequency modulated (shorter) AM—amplitude modulated

Microwaves Telecommunication—satellites Microwave oven

Infrared Radiation Thermal radiation –Electric heater –Infrared thermometer –Remote control

Visible Light Eyes detect these waves ROYGBIV White light—mixture of all of the colors of the visible spectrum See color when that wavelength is reflected

Ultraviolet Radiation Sunlight Ozone molecules absorb most Water purifiers Sterilizing instruments

X Rays High energy Medicine Airport security

Gamma Rays Produced by nuclear reactions and by radioactive nuclei Medical uses

The Photoelectric Effect Photons—bundles of energy Planck’s constant –Energy of a photon is proportional to the frequency of the electromagnetic radiation. Planck’s constant is that proportionality. –h = x J s –E photon = h c/λ

The Photoelectric Effect Work function –The energy required to “break” an electron out of a metallic surface—Φ Hf = Φ + KE e –Photon energy (speed of light/wavelength) = work function + kinetic energy