A Smile in the Sky

... The index of refraction is a measure of how much light bends when it passes into a medium from a vacuum. But the index is also a measure of how fast light travels in the medium. To learn how these two are connected, you must explore the connections between the ray model and the wave model of light. ...

FOURTH MIDTERM - REVIEW PROBLEMS Physics 2220 Fall 2010 George Williams

... Calculate the position of the final image measured from lens B. (+ to the right; - to the left.) Calculate the magnification of the system. Is the final image real or virtual? State your reasoning. Is the final image erect or inverted? State your reasoning. Calculate the critical angle for total int ...

basic laser safety - University of South Carolina

... view with the aid of optical instruments. In general, the use of magnifying glasses increases the hazard from a widely-diverging beam (e.g. LEDs and bare laser diodes), and binoculars or telescopes increase the hazard from a wide, collimated beam (such as those used in openbeam telecommunications sy ...

IOSR Journal of Applied Chemistry (IOSR-JAC)

Electromagnetic Radiation

... photon energy: E = hf = hc/λ h = 6.626 × 10−34 joule × s (Planck’s constant) The frequency f can be arbitrarily high or low, so the energy carried by an individual photon can be arbitrarily high or low. However, the energy always comes in a finite unit of one photon at a time, not continuously. © 20 ...

$Dependency between light intensity and refractive development$

Dependency between light intensity and refractive development

... Goldschleger Eye Research Institute, Tel Aviv University, 52621 Tel Hashomer, Israel ...

Principles of Electronic Communication Systems

... © 2008 The McGraw-Hill Companies ...

Synthesis and thermal decarbonylation of W(CO)5 complexes

... the residual polymeric matrix. This observation could be useful in designing polymeric complexes in order to control the nature of the metal containing particles resulting in the thermal decomposition. On the other hand, the thermograms also indicated that, in the case of 4, and 6b and, even more co ...

REFLECTION AND REFRACTION

... doesn’t travel through the mirror, but is returned by the mirror’s surface back into the air. When sound waves strike a canyon wall, they bounce back to you as an echo. When a wave transmitted along a spring reaches a wall, it reverses direction. In all these situations, waves remain in one medium r ...

Optical communication systems

... © 2008 The McGraw-Hill Companies ...

$9.2 refraction and total internal reflection$

9.2 refraction and total internal reflection

... ray, an effect called refraction. As with reflection, you can measure the direction of the refracted ray using the angle that it makes with the normal. In Figure 1, this angle is labelled θ2. The size of this angle depends on the incident angle (which is shown as θi in Figure 1) as well as the optic ...

$Chapter 21: Reflection and Refraction$

Chapter 21: Reflection and Refraction

Part5 - Physics Learning Laboratories

... which a small amount of fluorescein or other fluorescent material has been added, by means of whichthe paths of the rays of light are madevisible to the class. The \J/" size of the tank depends in part upon the *A A lenses and other accessories that are to be FIG. 28Trrange. used with it. A suggeste ...

Telescopes - cloudfront.net

Isomers and Isomerism Isomers

... If a compound rotates plane-polarized light, it is termed optically active. To be optically active, a compound must be chiral and one enantiomer of the compound must be present in excess over its mirror image. The enantiomer which produces clockwise rotation of plane-polarized light is designated th ...

(Monel) Thermal Spray Wire

Chapter 26 - apel slice

... Sounds easy, doesn't it? Actually, it is rather difficultunless you know that the bending of light makes the cup appear to be where it is not! You have just learned that light travels in straight lines. This means that it travels at a constant speed in a straight path through a medium. But light tra ...

Architectural Caustics — Controlling Light with Geometry

Fiber Optic Speed of Light Apparatus

... In 1976, the Bell System installed a trial fiber optic telephone system, and one year later had a commercial system in operation near Chicago. The phenomenal reliability of that system was in large part responsible for the rapid acceptance of fiber optic networks today. Bell's "acceptable" percentag ...

RHODOSPIRILL UM R UBR UM AND RHODOPSEUDOMONAS

Materials - Hodder Education

... ■■ Classification of materials based on bonding and structure There are a number of ways of classifying materials. One approach is to classify them into four groups on the basis of their bonding and structure. Crystalline materials have their particles (atoms, ions or molecules) arranged into a latt ...

Chapter 3 PowerPoint Presentation

... Matter—Properties and Change: Additional Concepts ...

Document

... SET UP: Snell’s law says na sin a  nb sin b . Apply Snell’s law to the refraction from material X into the water and then from the water into the air. © Copyright 2016 Pearson Education, Inc. All rights reserved. This material is protected under all copyright laws as they currently exist. No port ...

CHAPTER 10 Light as a wave

... Now, with these two explanations of refraction, there is a clear distinction between the two models. When light bends towards the normal as it enters water (a denser medium), the particle model says it is because light travels faster in water (the denser medium), whereas the wave model says it is be ...

CHAPTER 10 Light as a wave

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Photopolymer

A photopolymer is a polymer that changes its properties when exposed to light, often in the ultraviolet or visible region of the electromagnetic spectrum. These changes are often manifested structurally, for example hardening of the material occurs as a result of cross-linking when exposed to light. An example is shown below depicting a mixture of monomers, oligomers, and photoinitiators that conform into a hardened polymeric material through a process called curing,.A wide variety of technologically useful applications rely on photopolymers, for example some enamels and varnishes depend on photopolymer formulation for proper hardening upon exposure to light. In some instances, an enamel can cure in a fraction of a second when exposed to light, as opposed to thermally cured enamels which can require half an hour or longer. Curable materials are widely used for medical, printing, and photoresist technologies. Changes in structural and chemical properties can be induced internally by chromophores that the polymer subunit already possesses, or externally by addition of photosensitive molecules. Typically a photopolymer consists of a mixture of multifunctional monomers and oligomers in order to achieve the desired physical properties, and therefore a wide variety of monomers and oligomers have been developed that can polymerize in the presence of light either through internal or external initiation. Photopolymers undergo a process called curing, where oligomers are cross-linked upon exposure to light, forming what is known as a network polymer. The result of photo curing is the formation of a thermoset network of polymers. One of the advantages of photo-curing is that it can be done selectively using high energy light sources, for example lasers, however, most systems are not readily activated by light, and in this case a photoinitiator is required. Photoinitiators are compounds that upon radiation of light decompose into reactive species that activate polymerization of specific functional groups on the oligomers. An example of a mixture that undergoes cross-linking when exposed to light is shown below. The mixture consists of monomeric styrene and oligomeric acrylates.Most commonly, photopolymerized systems are typically cured through UV radiation, since ultraviolet light is more energetic; however, the development of dye-based photoinitiator systems have allowed for the use of visible light, having potential advantages of processes that are more simple and safe to handle. UV curing in industrial processes has greatly expanded over the past several decades. Many traditional thermally cured and solvent-based technologies can be replaced by photopolymerization technologies. The advantages of photopolymerization over thermally cured polymerization include high rates of polymerization and environmental benefits from elimination of volatile organic solvents.There are two general routes for photoinitiation: free radical and ionic. The general process involves doping a batch of neat polymer with small amounts of photoinitiator, followed by selective radiation of light, resulting a highly cross-linked product. Many of these reactions do not require solvent which eliminates termination path via reaction of initiators with solvent and impurities, in addition to decreasing the overall cost.

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Photopolymer