DOCSLIB.ORG

Tnemec Colorbook

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Tnemec Colorbook COLORBOOK WHITES 00WH Tnemec White � 06WH Albatross � 07WH Winter Mist � 08WH Acropolis � LRV 84% LRV 82% LRV 80% LRV 72% 01WH Ash White � 02WH Iceberg � 03WH Daisy � 04WH Silver Pearl � LRV 84% LRV 84% LRV 75% LRV 76% 12WH Milkweed � 13WH French Vanilla � 14WH Veiled � 15WH Aspen � LRV 78% LRV 73% LRV 78% LRV 72% 15BR Pale � 22BR Nova � 57BR Cloud � 79BR Colliseum � LRV 83% LRV 81% LRV 75% LRV 67% NOTE: Colors represented are digital reproductions of actual standards and will vary in appearance due to differences in monitor and video card output. These digital representations should not be used to finalize color selection(s). Please contact your local Tnemec Coatings Consultant for color-accurate samples or for assistance with suitable primer and finish coat selections and color matching. LRV = Light Reflectance Value � Standard color and gloss warranty is available in this color for Fluoronar and HydroFlon products. Other colors may be included. Contact your Tnemec representative for more information. GRAYS 30GR Comet � 24GR Lightpole � 43GR Constellation � 37GR Gradation � LRV 75% LRV 62% LRV 71% LRV 65% 25GR Grey Day � 31GR Slate Gray � 57GR Aluminum � 38GR Dove Gray � LRV 46% LRV 61% LRV 46% LRV 58% 33GR Gray – ANSI No. 61 � 32GR Light Gray – ANSI No. 70 � 46GR Sinker � 39GR Pigeon � LRV 33% LRV 44% LRV 26% LRV 42% 35GR Black � 34GR Deep Space � 48GR Moon Shadow � 41GR Hammerhead � LRV 4% LRV 12% LRV 10% LRV 17% NOTE: Colors represented are digital reproductions of actual standards and will vary in appearance due to differences in monitor and video card output. These digital representations should not be used to finalize color selection(s). Please contact your local Tnemec Coatings Consultant for color-accurate samples or for assistance with suitable primer and finish coat selections and color matching. LRV = Light Reflectance Value � Standard color and gloss warranty is available in this color for Fluoronar and HydroFlon products. Other colors may be included. Contact your Tnemec representative for more information. BLUES 57BL Steam � 15BL Tank White � 22BL Spring Rain � 37BL Teardrop � LRV 76% LRV 83% LRV 76% LRV 70% 59BL Seaspray � 29BL Springwater � 23BL Robin’s Egg � 39BL Delft Blue � LRV 55% LRV 75% LRV 72% LRV 60% 61BL Blue Ribbon � 09BL Cold Wind � 25BL Fountainbleu � 40BL Pika Blue � LRV 32% LRV 65% LRV 50% LRV 41% 55BL Mysterious � 11BL Canal Blue � 26BL Clear Sky � 41BL Lagoon � LRV 15% LRV 45% LRV 40% LRV 24% 63BL Navy Blue � 14BL Cadet Blue � 28BL Pond 42BL Blue Channel � LRV 9% LRV 11% LRV 18% LRV 19% NOTE: Colors represented are digital reproductions of actual standards and will vary in appearance due to differences in monitor and video card output. These digital representations should not be used to finalize color selection(s). Please contact your local Tnemec Coatings Consultant for color-accurate samples or for assistance with suitable primer and finish coat selections and color matching. LRV = Light Reflectance Value � Standard color and gloss warranty is available in this color for Fluoronar and HydroFlon products. Other colors may be included. Contact your Tnemec representative for more information. GREENS 78GN Cumulus � 92GN Marshall Green � 106GN Bottle Green � 51GN Sage � LRV 81% LRV 74% LRV 74% LRV 72% 94GN Moonseed � 108GN Ginger Mist � 37GN Irish Spring � 52GN Aztec Grass � LRV 57% LRV 58% LRV 71% LRV 63% 96GN Zucchini � 110GN Clover � 10GN Aqua Sky � 54GN Granny Smith � LRV 27% LRV 31% LRV 71% LRV 38% 28GN Shannon’s Isle � 90GN Brahm Grass � 13GN Mermaid � 56GN Moss � LRV 13% LRV 24% LRV 29% LRV 21% 21GN Fairway � 91GN Balsam � 14GN Bluegrass � 112GN Foliage � LRV 15% LRV 14% LRV 15% LRV 11% NOTE: Colors represented are digital reproductions of actual standards and will vary in appearance due to differences in monitor and video card output. These digital representations should not be used to finalize color selection(s). Please contact your local Tnemec Coatings Consultant for color-accurate samples or for assistance with suitable primer and finish coat selections and color matching. LRV = Light Reflectance Value � Standard color and gloss warranty is available in this color for Fluoronar and HydroFlon products. Other colors may be included. Contact your Tnemec representative for more information. BEIGES, TANS AND REDS 01BR Warm Sun � 64BR Bisque � 44BR Beige � 10RD Barely Blush LRV 78% LRV 82% LRV 66% LRV 64% 22YW Barbados � 65BR Rock Slide � 46BR Stable Brown � 12RD Desert Rose LRV 72% LRV 67% LRV 46% LRV 27% 03BR Washed Khaki � 66BR Dust Bowl � 05RD Hometown � 14RD Red Clay � LRV 61% LRV 61% LRV 33% LRV 14% 04BR Desert Sands � 68BR Twine � 23BR Sahara � 07RD Terra Cotta � LRV 51% LRV 42% LRV 65% LRV 11% 06BR Amber Canyon � 70BR Worn Path � 25BR Honey Roast � 28RD Monterrey Tile LRV 32% LRV 16% LRV 48% LRV 8% NOTE: Colors represented are digital reproductions of actual standards and will vary in appearance due to differences in monitor and video card output. These digital representations should not be used to finalize color selection(s). Please contact your local Tnemec Coatings Consultant for color-accurate samples or for assistance with suitable primer and finish coat selections and color matching. LRV = Light Reflectance Value � Standard color and gloss warranty is available in this color for Fluoronar and HydroFlon products. Other colors may be included. Contact your Tnemec representative for more information. BROWNS AND YELLOWS 50RD Bare Beige � 72BR Sand Dunes � 01YW Sunfresh � 08YW Lemonwater � LRV 74% LRV 70% LRV 84% LRV 84% 81BR Lumberg � 74BR Clay � 03YW Oat Straw � 10YW Flaxseed � LRV 49% LRV 48% LRV 73% LRV 80% 83BR Kindling � 76BR Dried Timber � 52BR Chamois � 11YW Daffodil LRV 20% LRV 22% LRV 62% LRV 76% 85BR Medium Bronze � 77BR Coffee Grounds � 53BR Tiki Wood � 12YW Corncob LRV 9% LRV 12% LRV 46% LRV 72% 86BR Dark Bronze � 84BR Weathered Bark � 62BR Acorn � 05YW Grapefruit � LRV 6% LRV 11% LRV 22% LRV 59% NOTE: Colors represented are digital reproductions of actual standards and will vary in appearance due to differences in monitor and video card output. These digital representations should not be used to finalize color selection(s). Please contact your local Tnemec Coatings Consultant for color-accurate samples or for assistance with suitable primer and finish coat selections and color matching. LRV = Light Reflectance Value � Standard color and gloss warranty is available in this color for Fluoronar and HydroFlon products. Other colors may be included. Contact your Tnemec representative for more information. BRIGHT AND SAFETY COLORS 14YW Canary Yellow 04SF Tangerine Orange/Safety 10SF Deep Blue Sea � 14SF Purple Rain/Safety LRV 64% LRV 29% LRV 15% LRV 17% 02SF Lemon Yellow/Safety � 06SF Candy Apple Red/Safety � 11SF True Blue/Safety � 13SF Purple Mountain’s Majesty LRV 53% LRV 14% LRV 18% LRV 12% 03SF Bright Yellow 07SF Chilean Red 12SF Purple Haze � 09SF Spearmint Green/Safety � LRV 43% LRV 9% LRV 8% LRV 27% 05SF International Orange 71RD Old Glory Red 78BL Old Glory Blue 08SF Hunter Green � LRV 17% LRV 16% LRV 7% LRV 8% NOTE: Colors represented are digital reproductions of actual standards and will vary in appearance due to differences in monitor and video card output. These digital representations should not be used to finalize color selection(s). Please contact your local Tnemec Coatings Consultant for color-accurate samples or for assistance with suitable primer and finish coat selections and color matching. LRV = Light Reflectance Value � Standard color and gloss warranty is available in this color for Fluoronar and HydroFlon products. Other colors may be included. Contact your Tnemec representative for more information. Tnemec Company Incorporated 6800 Corporate Drive Kansas City, Missouri 64120-1372 1-800-TNEMEC1 Fax: 1-816-483-3969 www.tnemec.com Published technical instructions and pricing are subject to change without notice. Contact your Tnemec technical representative for current technical data, instructions and pricing. Warranty information: The service life of Tnemec coatings will vary. For warranty, limitation of seller’s liability and product information, please refer to Tnemec Product Data Sheets at www.tnemec.com or contact your Tnemec technical representative. Printed in the USA. ©Tnemec Company, Inc. 2008 CBOOK.
Load more

Recommended publications
  • Explicit Image Detection Using Ycbcr Space Color Model As Skin Detection
    Applications of Mathematics and Computer Engineering Explicit Image Detection using YCbCr Space Color Model as Skin Detection JORGE ALBERTO MARCIAL BASILIO1, GUALBERTO AGUILAR TORRES2, GABRIEL SÁNCHEZ PÉREZ3, L. KARINA TOSCANO MEDINA4, HÉCTOR M. PÉREZ MEANA5 Sección de Estudios de Posgrados e Investigación 1Escuela Superior de Ingeniería Mecánica y Eléctrica Unidad Culhuacan Santa Ana #1000 Col. San Francisco Culhuacan, Del. Coyoacán C.P. 04430 MEXICO CITY [email protected], [email protected], [email protected], [email protected], [email protected] Abstract: - In this paper a novel way to detect explicit content images is proposed using the YCbCr space color, moreover the color pixels percentage that are within the image is calculated which are susceptible to be a tone skin. The main goal to use this method is to apply to forensic analysis or pornographic images detection on storage devices such as hard disk, USB memories, etc. The results obtained using the proposed method are compared with Paraben’s Porn Detection Stick software which is one of the most commercial devices used for detecting pornographic images. The proposed algorithm achieved identify up to 88.8% of the explicit content images, and 5% of false positives, the Paraben’s Porn Detection Stick software achieved 89.7% of effectiveness for the same set of images but with a 6.8% of false positives. In both cases were used a set of 1000 images, 550 natural images, and 450 with highly explicit content. Finally the proposed algorithm effectiveness shows that the methodology applied to explicit image detection was successfully proved vs Paraben’s Porn Detection Stick software.
    [Show full text]
  • Computational RYB Color Model and Its Applications
    IIEEJ Transactions on Image Electronics and Visual Computing Vol.5 No.2 (2017) -- Special Issue on Application-Based Image Processing Technologies -- Computational RYB Color Model and its Applications Junichi SUGITA† (Member), Tokiichiro TAKAHASHI†† (Member) †Tokyo Healthcare University, ††Tokyo Denki University/UEI Research <Summary> The red-yellow-blue (RYB) color model is a subtractive model based on pigment color mixing and is widely used in art education. In the RYB color model, red, yellow, and blue are defined as the primary colors. In this study, we apply this model to computers by formulating a conversion between the red-green-blue (RGB) and RYB color spaces. In addition, we present a class of compositing methods in the RYB color space. Moreover, we prescribe the appropriate uses of these compo- siting methods in different situations. By using RYB color compositing, paint-like compositing can be easily achieved. We also verified the effectiveness of our proposed method by using several experiments and demonstrated its application on the basis of RYB color compositing. Keywords: RYB, RGB, CMY(K), color model, color space, color compositing man perception system and computer displays, most com- 1. Introduction puter applications use the red-green-blue (RGB) color mod- Most people have had the experience of creating an arbi- el3); however, this model is not comprehensible for many trary color by mixing different color pigments on a palette or people who not trained in the RGB color model because of a canvas. The red-yellow-blue (RYB) color model proposed its use of additive color mixing. As shown in Fig.
    [Show full text]
  • Kelvin Color Temperature
    KELVIN COLOR TEMPERATURE William Thompson Kelvin was a 19th century physicist and mathematician who invented a temperature scale that had absolute zero as its low endpoint. In physics, absolute zero is a very cold temperature, the coldest possible, at which no heat exists and kinetic energy (movement) ceases. On the Celsius scale absolute zero is -273 degrees, and on the Fahrenheit scale it is -459 degrees. The Kelvin temperature scale is often used for scientific measurements. Kelvins, as the degrees are now called, are derived from the actual temperature of a black body radiator, which means a black material heated to that temperature. An incandescent filament is very dark, and approaches being a black body radiator, so the actual temperature of an incandescent filament is somewhat close to its color temperature in Kelvins. The color temperature of a lamp is very important in the television industry where the camera must be calibrated for white balance. This is often done by focusing the camera on a white card in the available lighting and tweaking it so that the card reads as true white. All other colors will automatically adjust so that they read properly. This is especially important to reproduce “normal” looking skin tones. In theatre applications, where it is only important for colors to read properly to the human eye, the exact color temperature of lamps is not so important. Incandescent lamps tend to have a color temperature around 3200 K, but this is true only if they are operating with full voltage. Remember that dimmers work by varying the voltage pressure supplied to the lamp.
    [Show full text]
  • RGB Color Code According to the Commission for the Geological Map of the World (CGMW), Paris, France
    RGB Color Code according to the Commission for the Geological Map of the World (CGMW), Paris, France Holocene 254/242/236 Tithonian 217/241/247 Famennian 242/237/197 Ediacaran 254/217/106 254/242/224 Upper Neo- Upper Upper 255/242/211 Kimmeridgian 204/236/244 241/225/157 Frasnian 242/237/173 proterozoic Cryogenian 254/204/92 179/227/238 99 254/179/66 Pleistocene "Ionian" 255/242/199 Oxfordian 191/231/241 Middle Givetian 241/225/133 Tonian 254/191/78 255/242/174 241/200/104 Calabrian 255/242/186 Callovian 191/231/229 203/140/55 Eifelian 241/213/118 Stenian 254/217/154 Quaternary 249/249/127 Meso- Gelasian 255/237/179 Bathonian 179/226/227 247/53/ proterozoic Ectasian Middle Emsian 229/208/117 253/204/138 Lower 253/180/98 Pliocene Piacenzian 255/255/191 52/178/201 128/207/216 Bajocian 166/221/224 Pragian 229/196/104 Calymmian 253/192/122 229/172/77 255/255/153 Zanclean 255/255/179 Aalenian 154/217/221 Lochkovian 229/183/90 Statherian 248/117/167 Devonian Pridoli Messinian 255/255/115 Toarcian 153/206/227 230/245/225 Paleo- Orosirian 247/104/152 103/197/202 230/245/225 247/67/112 proterozoic Tortonian 255/255/102 128/197/221 Rhyacian 247/91/137 Jurassic Pliensbachian Ludfordian 217/240/223 Lower Ludlow Proterozoic 247/67/112 255/230/25 Miocene Serravallian 255/255/89 66/174/208 Sinemurian 103/188/216 191/230/207 Gorstian 204/236/221 Siderian 247/79/124 242/249/29 255/255/0 Langhian 255/255/77 78/179/211 Hettangian Wenlock Homerian 204/235/209 Neoarchean 250/167/200 255/255/65 Burdigalian Rhaetian 227/185/219 179/225/182 179/225/194 Sheinwoodian
    [Show full text]
  • Securedge™ and Metal Flat Sheet Color Chart
    EXPERIENCE THE CARLISLE DIFFERENCE SecurEdge™ and Metal Flat Sheet Color Chart STONE WHITE BONE WHITE REGAL WHITE SANDSTONE ALMOND SIERRA TAN BUCKSKIN MEDIUM BRONZE DARK BRONZE ANTIQUE BRONZE MIDNIGHT BRONZE AGED BRONZE MANSARD BROWN BLACK CITYSCAPE SLATE GRAY GRANITE L MUSKET GRAY CHARCOAL IRON ORE HEMLOCK GREEN PATINA GREEN FOREST GREEN HARTFORD GREEN BURGUNDY COLONIAL RED TERRA COTTA CARDINAL RED TEAL MILITARY BLUE PACIFIC BLUE INTERSTATE BLUE AWARD BLUE SILVER P ZINC P WEATHERED ZINC P CHAMPAGNE P COPPER PENNY P AGED COPPER P DREXLUME™ M P = PREMIUM M = MILL FINISH L = LOW GLOSS COLOR = Standard Product P = CRRC Approved Finishes Cool Roof Product Options SR SRI 24 ga x 20" 24 ga x 48" 22 ga x 48" 26 ga x 20" 26 ga x 27.5" 26 ga x 48" 0.032 x 20" 0.032 x 48" 0.040 X 48" 0.050 x 48" 0.063 x 48" Rated Standard Colors Aged Bronze 0.29 29 P Almond 0.53 62 P Antique Bronze 0.29 28 Black 0.20 17 Bone White 0.67 81 P Buckskin 0.38 41 Burgundy 0.24 23 Charcoal 0.27 27 P Cityscape 0.44 49 P Colonial Red 0.32 34 P Dark Bronze 0.26 24 P Forest Green 0.10 6 Hartford Green 0.29 29 Hemlock Green 0.29 29 P Interstate Blue 0.13 8 Iron Ore 0.27 26 Mansard Brown 0.29 29 P Medium Bronze 0.26 26 P Midnight Bronze 0.06 0 Military Blue 0.29 29 P Musket Gray 0.31 32 P Pacific Blue 0.25 24 P Patina Green 0.33 34 P Regal White 0.60 78 Sandstone 0.49 56 P Sierra Tan 0.36 39 P Slate Gray 0.37 40 P Stone White 0.64 77 P Teal 0.26 25 P Terra Cotta 0.36 39 P Low Gloss Colors Aspen Bronze 0.26 26 P Autumn Red 0.32 34 P Chestnut Brown 0.29 29 P Classic Bronze 0.29
    [Show full text]
  • Color Temperature and at 5,600 Degrees Kelvin It Will Begin to Appear Blue
    4,800 degrees it will glow a greenish color Color Temperature and at 5,600 degrees Kelvin it will begin to appear blue. But light itself has no heat; Color temperature is usually used so for photography it is just a measure- to mean white balance, white point or a ment of the hue of a specific type of light means of describing the color of white source. light. This is a very difficult concept to ex- plain, because–”Isn’t white always white?” The human brain is incred- ibly adept at quickly correcting for changes in the color temperature of light; many different kinds of light all seem “white” to us. When moving from a bright daylight environment to a room lit by a candle all that will appear to change, to the naked eye, is the light level. Yet record these two situations shooting color film, digital photographs or with tape in an unbalanced camcorder and the outside images will have a blueish hue and the inside images will have a heavy orange cast. The brain quickly adjust to the changes, mak- ing what is perceived as white ap- pear white, whereas film, digital im- ages and camcorders are balanced for one particular color and anything that deviates from this will produce a color cast. A GUIDE TO COLOR TEMPERATURE The color of light is measured by the Kelvin scale . This is a sci- entific temperature scale used to measure the exact temperature of objects. If you heat a carbon rod to 3,200 degrees, it glows orange.
    [Show full text]
  • 14. Color Mapping
    14. Color Mapping Jacobs University Visualization and Computer Graphics Lab Recall: RGB color model Jacobs University Visualization and Computer Graphics Lab Data Analytics 691 CMY color model • The CMY color model is related to the RGB color model. •Itsbasecolorsare –cyan(C) –magenta(M) –yellow(Y) • They are arranged in a 3D Cartesian coordinate system. • The scheme is subtractive. Jacobs University Visualization and Computer Graphics Lab Data Analytics 692 Subtractive color scheme • CMY color model is subtractive, i.e., adding colors makes the resulting color darker. • Application: color printers. • As it only works perfectly in theory, typically a black cartridge is added in practice (CMYK color model). Jacobs University Visualization and Computer Graphics Lab Data Analytics 693 CMY color cube • All colors c that can be generated are represented by the unit cube in the 3D Cartesian coordinate system. magenta blue red black grey white cyan yellow green Jacobs University Visualization and Computer Graphics Lab Data Analytics 694 CMY color cube Jacobs University Visualization and Computer Graphics Lab Data Analytics 695 CMY color model Jacobs University Visualization and Computer Graphics Lab Data Analytics 696 CMYK color model Jacobs University Visualization and Computer Graphics Lab Data Analytics 697 Conversion • RGB -> CMY: • CMY -> RGB: Jacobs University Visualization and Computer Graphics Lab Data Analytics 698 Conversion • CMY -> CMYK: • CMYK -> CMY: Jacobs University Visualization and Computer Graphics Lab Data Analytics 699 HSV color model • While RGB and CMY color models have their application in hardware implementations, the HSV color model is based on properties of human perception. • Its application is for human interfaces. Jacobs University Visualization and Computer Graphics Lab Data Analytics 700 HSV color model The HSV color model also consists of 3 channels: • H: When perceiving a color, we perceive the dominant wavelength.
    [Show full text]
  • R Color Cheatsheet
    R Color Palettes R color cheatsheet This is for all of you who don’t know anything Finding a good color scheme for presenting data about color theory, and don’t care but want can be challenging. This color cheatsheet will help! some nice colors on your map or figure….NOW! R uses hexadecimal to represent colors TIP: When it comes to selecting a color palette, Hexadecimal is a base-16 number system used to describe DO NOT try to handpick individual colors! You will color. Red, green, and blue are each represented by two characters (#rrggbb). Each character has 16 possible waste a lot of time and the result will probably not symbols: 0,1,2,3,4,5,6,7,8,9,A,B,C,D,E,F: be all that great. R has some good packages for color palettes. Here are some of the options “00” can be interpreted as 0.0 and “FF” as 1.0 Packages: grDevices and i.e., red= #FF0000 , black=#000000, white = #FFFFFF grDevices colorRamps palettes Two additional characters (with the same scale) can be grDevices comes with the base cm.colors added to the end to describe transparency (#rrggbbaa) installation and colorRamps topo.colors terrain.colors R has 657 built in color names Example: must be installed. Each palette’s heat.colors To see a list of names: function has an argument for rainbow colors() peachpuff4 the number of colors and see P. 4 for These colors are displayed on P. 3. transparency (alpha): options R translates various color models to hex, e.g.: heat.colors(4, alpha=1) • RGB (red, green, blue): The default intensity scale in R > #FF0000FF" "#FF8000FF" "#FFFF00FF" "#FFFF80FF“ ranges from 0-1; but another commonly used scale is 0- 255.
    [Show full text]
  • COLOR SELECTION High Gloss Colors Matte Finish Colors Choosing a Color Is a Very Personal Decision, So QUICKIE and ZIPPIE Give You More Options
    POWER CHAIR SHROUD COLORS & COLOR SELECTION High Gloss Colors Matte Finish Colors Choosing a color is a very personal decision, so QUICKIE and ZIPPIE give you more options. From subtle to eye-catching, we offer the Apple Green Copper Silver Matte Black widest spectrum of possibilities. Explore our collection to find the look that suits you! Special Edition White Candy Apple Red High Gloss Black Yellow Digital Camo Available exclusively on QUICKIE 7 R, 7RS and Q7 NextGEN KOLORFUSION ™ Candy Blue Midnight Blue American Flag Woodland Camo Desert Camo Mossy Oak Camouflage Stars and Stripes Candy Purple Pearl Pink Pink Camo Grunge Skulls Zebra* Color match your * Black Zebra Kolorfusion ™ pattern is available on any base color. JAY ® J3 Back to your Shown here on Candy Blue base color. Quickie ® chair! Carbon Fiber Pearl White ©01.2016 Sunrise Medical (US) LLC Available for order MK-100168 Rev. B through JAY Your Way ™ customizations Customer Service: 800.333.4000 www.SunriseMedical.com FRAME COLORS Sparkle Silver, Red Anodized Package Zebra Kolorfusion ™ Glow paint shown in the dark High Gloss Colors Matte Finish Colors Aztec Gold Candy Red Rootbeer Titanium Color Paint Black Electric Blue Sparkle Silver Matte Black Black Cherry Evergreen Sunrise Orange Matte Black Cherry Black Opal Glow Yellow Matte Purple ANODIZED PARTS Blue Opal Green Apple Refer to product order form for anodized part options. Matte Electric Blue Candy Blue Hot Sparkle Pink Black Titanium Grey Gold Blue Matte Evergreen NOTES: Print processes cannot accurately represent paint finishes. Actual colors may vary. Candy Purple Mauve Pink Colors and patterns may vary based on type of chair or frame material.
    [Show full text]
  • Color Photography, an Instrumentality of Proof Edwin Conrad
    Journal of Criminal Law and Criminology Volume 48 | Issue 3 Article 10 1957 Color Photography, an Instrumentality of Proof Edwin Conrad Follow this and additional works at: https://scholarlycommons.law.northwestern.edu/jclc Part of the Criminal Law Commons, Criminology Commons, and the Criminology and Criminal Justice Commons Recommended Citation Edwin Conrad, Color Photography, an Instrumentality of Proof, 48 J. Crim. L. Criminology & Police Sci. 321 (1957-1958) This Criminology is brought to you for free and open access by Northwestern University School of Law Scholarly Commons. It has been accepted for inclusion in Journal of Criminal Law and Criminology by an authorized editor of Northwestern University School of Law Scholarly Commons. POLICE SCIENCE COLOR PHOTOGRAPHY, AN INSTRUMENTALITY OF PROOF EDWIN CONRAD The author is a practicing attorney in Madison, Wisconsin. He is a graduate of the University of Wisconsin and the University of Wisconsin Law School, and in addition holds a degree of Master of Arts from this same institution. Mr. Conrad is the author of two books, Modern Trial Evidence (1956) and Wisconsin Evidence (1949). He has served as a lecturer on the law of evidence and scientific evidence at the University of Wisconsin, and is a member of the American Law Institute and the American Acad- emy of Forensic Sciences.-EmroR HISTORICAL HIGHLIGHTS Color photography, the miracle of modem science, is popularly assumed to be of recent origin. Yet we know that the first attempts at reproducing color chemically were made by Prof. T. J. Seebeck of Jena who in 1810, long before photography had even been discovered, observed that if moistened silver chloride were allowed to darken on paper and then exposed to different colors of light, the silver chloride would approximate the colors that had effected it.
    [Show full text]
  • The Techniques and Material Aesthetics of the Daguerreotype
    The Techniques and Material Aesthetics of the Daguerreotype Michael A. Robinson Submitted for the degree of Doctor of Philosophy Photographic History Photographic History Research Centre De Montfort University Leicester Supervisors: Dr. Kelley Wilder and Stephen Brown March 2017 Robinson: The Techniques and Material Aesthetics of the Daguerreotype For Grania Grace ii Robinson: The Techniques and Material Aesthetics of the Daguerreotype Abstract This thesis explains why daguerreotypes look the way they do. It does this by retracing the pathway of discovery and innovation described in historical accounts, and combining this historical research with artisanal, tacit, and causal knowledge gained from synthesizing new daguerreotypes in the laboratory. Admired for its astonishing clarity and holographic tones, each daguerreotype contains a unique material story about the process of its creation. Clues from the historical record that report improvements in the art are tested in practice to explicitly understand the cause for effects described in texts and observed in historic images. This approach raises awareness of the materiality of the daguerreotype as an image, and the materiality of the daguerreotype as a process. The structure of this thesis is determined by the techniques and materials of the daguerreotype in the order of practice related to improvements in speed, tone and spectral sensitivity, which were the prime motivation for advancements. Chapters are devoted to the silver plate, iodine sensitizing, halogen acceleration, and optics and their contribution toward image quality is revealed. The evolution of the lens is explained using some of the oldest cameras extant. Daguerre’s discovery of the latent image is presented as the result of tacit experience rather than fortunate accident.
    [Show full text]
  • Opponent Models of Color
    C. A. Bouman: Digital Image Processing - January 20, 2021 1 Opponent Color Spaces • Perception of color is usually not best represented in RGB. • A better model of HVS is the so-call opponent color model • Opponent color space has three components: – O1 is luminance component – O2 is the red-green channel O2 = G − R – O3 is the blue-yellow channel O3 = B − Y = B − (R + G) • Comments: – People don’t perceive redish-greens, or bluish-yellows. – As we discussed, O1 has a bandpass CSF. – O2 and O3 have low pass CSF’s with lower frequency cut-off. C. A. Bouman: Digital Image Processing - January 20, 2021 2 Opponent Channel Contrast Sensitivity Functions (CSF) • Typical CSF functions looks like the following. LuminanceCSF Red-GreenCSF Blue-YellowCSF contrastsensitivity cyclesperdegree C. A. Bouman: Digital Image Processing - January 20, 2021 3 Consequences of Opponent Channel CSF • Luminance channel is – Bandpass function – Wide band width ⇒ high spatial resolution. – Low frequency cut-off ⇒ insensitive to average lumi- nance level. • Chrominance channels are – Lowpass function – Lower band width ⇒ low spatial resolution. – Low pass ⇒ sensitive to absolute chromaticity (hue and saturation). C. A. Bouman: Digital Image Processing - January 20, 2021 4 Some Practical Consequences of Opponent Color Spaces • Analog video has less bandwidth in I and Q channels. • Chrominance components are typically subsampled 2-to- 1 in image compression applications. • Black text on white paper is easy to read. (couples to O1) • Yellow text on white paper is difficult to read. (couples to O3) • Blue text on black background is difficult to read. (cou- ples to O3) • Color variations that do not change O1 are called “isolu- minant”.
    [Show full text]