Presentation is loading. Please wait.

Presentation is loading. Please wait.

Madison Mariani ATMOSPHERIC OPTICS. MECHANISMS Reflection Scattering Refraction Diffraction.

Published byLaurence Blankenship Modified over 9 years ago

Similar presentations

Presentation on theme: "Madison Mariani ATMOSPHERIC OPTICS. MECHANISMS Reflection Scattering Refraction Diffraction."— Presentation transcript:

1 Madison Mariani ATMOSPHERIC OPTICS

2 MECHANISMS Reflection Scattering Refraction Diffraction

3 Newton’s Theory of Light Geometric nature of laws of reflection/refraction could only be explained if light was made of particles (corpuscles) Prism Experiment Color wheel

4 HUYGENS-FRESNEL PRINCIPLE The Wave Theory Christiaan Huygens Light is emitted in all directions as “luminiferous ether” Not affected by gravity  slow down in denser mediums Augustin-Jean Fresnel Expanded Light was entirely transverse ( no wave components in direction of prepagation Huygens-Fresnel Principle Method of analyzing the wave propagation patters of light Secondary spherical waves in all directions

5 PIERRE DE FERMAT Fermat’s principle (principle of least time) The path taken between two points by a ray of light is the path that can be traversed in the least time

6 WILLEBRORD SNELL Law of Refraction or Snell’s Law The ratio of sin(theta1)/sin(theta2) is the index of refraction Should go from a perfect vacuum

7 CREPUSCULAR RAYS

8 SUNSETS

9 HALOS

10 SUNDOGS

11 LININGS AND IRIDESCENCE

12 RAINBOWS

13 WORKS CITED http://enlightenyourmind.net/History/huygens.html http://zonalandeducation.com/mstm/physics/light/rayOptics/refraction/snellsLaw/snellsLaw 1.html http://zonalandeducation.com/mstm/physics/light/rayOptics/refraction/snellsLaw/snellsLaw 1.html http://ww2010.atmos.uiuc.edu/(Gh)/guides/mtr/opt/home.rxml http://www.thestargarden.co.uk/NewtonAndLight.html http://hyperphysics.phy-astr.gsu.edu/hbase/phyopt/fermat.html

Download ppt "Madison Mariani ATMOSPHERIC OPTICS. MECHANISMS Reflection Scattering Refraction Diffraction."

Similar presentations

Reflection and Refraction Presented by: Chun Yin Fu Xing Zhong Lin SC442, Honors, Fall 2001, Dr. R.Kezerashvili.

Reflection and Refraction Presented by: Chun Yin Fu Xing Zhong Lin SC442, Honors, Fall 2001, Dr. R.Kezerashvili.
Optics Val Bennington October 2008. Path of Radiation (Light) Can be modified: Reflected Scattered Absorbed Or path may remain the same: Transmitted.

Optics Val Bennington October Path of Radiation (Light) Can be modified: Reflected Scattered Absorbed Or path may remain the same: Transmitted.
Optics 1. 2 The electromagnetic spectrum Visible light make up only a small part of the entire spectrum of electromagnetic waves. Unlike sound waves and.

Optics 1. 2 The electromagnetic spectrum Visible light make up only a small part of the entire spectrum of electromagnetic waves. Unlike sound waves and.
Refraction Lesson 4. Objective You will be able to qualitatively and quantitatively describe the behavior of waves as the pass from one medium to another.

Refraction Lesson 4. Objective You will be able to qualitatively and quantitatively describe the behavior of waves as the pass from one medium to another.
Wavelike Properties of Electromagnetic Radiation 1.Wave parameters 2.Refraction a.Index of refraction Snell’s Law b. Prism monochrometers 3.Diffraction.

Wavelike Properties of Electromagnetic Radiation 1.Wave parameters 2.Refraction a.Index of refraction Snell’s Law b. Prism monochrometers 3.Diffraction.
Chapter 22 Reflection and Refraction of Light. A Brief History of Light 1000 AD It was proposed that light consisted of tiny particles Newton Used this.

Chapter 22 Reflection and Refraction of Light. A Brief History of Light 1000 AD It was proposed that light consisted of tiny particles Newton Used this.
Reflection And Refraction Of Light

Reflection And Refraction Of Light
High School Part 1 /2 by SSL Technologies Physics Ex-45 Click Light is a form of energy. In many ways light is unique in that it has both particle properties.

High School Part 1 /2 by SSL Technologies Physics Ex-45 Click Light is a form of energy. In many ways light is unique in that it has both particle properties.
Lecture 12 Light: Reflection and Refraction Chapter 22.1  22.4 Outline History of Studies of Light Reflection of Light The Law of Refraction. Index of.

Lecture 12 Light: Reflection and Refraction Chapter 22.1  22.4 Outline History of Studies of Light Reflection of Light The Law of Refraction. Index of.
What is Light?. What is light? We can not understand what light is by examining light under microscope. We have to make whether it explains the observed.

What is Light?. What is light? We can not understand what light is by examining light under microscope. We have to make whether it explains the observed.
Physical processes within Earth’s interior Topics 1.Seismology and Earth structure 2.Plate kinematics and geodesy 3.Gravity 4.Heat flow 5.Geomagnetism.

Physical processes within Earth’s interior Topics 1.Seismology and Earth structure 2.Plate kinematics and geodesy 3.Gravity 4.Heat flow 5.Geomagnetism.
Physics for Scientists and Engineers II, Summer Semester 2009 1 Lecture 23: July 17 th 2009 Physics for Scientists and Engineers II.

Physics for Scientists and Engineers II, Summer Semester Lecture 23: July 17 th 2009 Physics for Scientists and Engineers II.
PHY 1371Dr. Jie Zou1 Chapter 35 The Nature of Light and the Laws of Geometric Optics (Cont.)

PHY 1371Dr. Jie Zou1 Chapter 35 The Nature of Light and the Laws of Geometric Optics (Cont.)
Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker.

Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker.
Chapter 35 Serway & Jewett 6th Ed..

Chapter 35 Serway & Jewett 6th Ed..
Optics. Introduction  Geometrical Optics  Physical Optics  Modern Optics  Fundamental of Light Wave –Description E(r,t) = A(r)cos[ωt – kr] or E(r,t)

Optics. Introduction  Geometrical Optics  Physical Optics  Modern Optics  Fundamental of Light Wave –Description E(r,t) = A(r)cos[ωt – kr] or E(r,t)
Chapter 22 Reflection and Refraction of Light 1. Dual nature of light 2. Geometric optics 3. Reflection and Refraction 4. Dispersion 5. Huygen’s Principle.

Chapter 22 Reflection and Refraction of Light 1. Dual nature of light 2. Geometric optics 3. Reflection and Refraction 4. Dispersion 5. Huygen’s Principle.
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.

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.
Huygen’s Principle: Electromagnetic waves can be examined using geometrical considerations instead of the relationships between the electric and magnetic.

Huygen’s Principle: Electromagnetic waves can be examined using geometrical considerations instead of the relationships between the electric and magnetic.
K L University By G.SUNITA DEPARTMENT OF PHYSICS.

K L University By G.SUNITA DEPARTMENT OF PHYSICS.

Similar presentations

Ads by Google