DOCSLIB.ORG

Watercolor Color Chart

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Watercolor Color Chart EVERY ARTIST DESERVES THE FINEST COLOR THAT CAN BE CREATED Bismuth Yellow Hansa Yellow Cadmium Yellow Light Azo Yellow Hansa Yellow Deep Cadmium Yellow Cadmium Yellow Deep 019, PY 184, LF I, O, G 107, PY 3, LF II, ST, S 070, PY 35, LF I, O, G 018, PY 151, LF I, T, S 106, PY 97, LF II, T, S 060, PY 35, LF I, O, G 063, PY 35, LF I, O, G Gamboge Indian Yellow Azo Orange Cadmium Orange Scarlet Pyrrol Quinacridone Red Cadmium Red Light 105, PY 151 & PO 62, LF I, T, S 109, PY 110, LF I, T, S 017, PO 62, LF II, T, S 038, PO 20, LF I, O, G 176, PO 73, LF I, T, S 155, PR 209, LF I, T, S 050, PR 108, LF I, O, G Naphthol Red Pyrrol Red Cadmium Red Cadmium Red Deep Quinacridone Rose Alizarin Crimson Permanent Alizarin 120, PR 112, LF II, T, S 154, PR 254, LF I, ST, S 040, PR 108, LF I, O, G 045, PR 108, LF I, O, G 156 , PV 19, LF I, T, S 010, PR 83, LF III, T, S Crimson 129, PR 264, LF II, T, S Maroon Perylene Quinacridone Violet Ultramarine Pink Mineral Violet Cobalt Violet Ultramarine Violet Dioxazine Purple 113, PR 179, LF I, T, S 158, PV 19, LF I, T, S 192, PR 258, LF I, SO, G 116, PV 16 & PV 15, LF I, SO, G 099, PV 14, LF I, ST, G Deep 100, PV 23, LF II, T, S 194, PV 15, LF I, T, G Ultramarine Violet Ultramarine Blue Cobalt Blue Anthraquinone Blue Cerulean Blue Cerulean Blue Deep Phthalocyanine Blue 193, PB 29 & PV 15, LF I, T, G 190, PB 29, LF I, T, G 090, PB 28, LF I, ST, G 012, PB 60, LF I, T, S 080, PB 36, LF I, SO, G 081, PB 36, LF I, SO, G Red Shade 141, PB 15:0, LF I, T, S Prussian Blue Phthalocyanine Blue Manganese Blue Hue Cobalt Teal Turquoise Phthalocyanine Green Viridian 153, PB 27, LF I, T, S 140, PB 15:3, LF I, T, S 114, PB 15:3 & PW 4, LF I, T, S 097, PB 28, LF I, SO, G 189, PB 15:3 & PG 7, LF I, T, S 150, PG 7, LF I, T, S 195, PG 18, LF I, T, G Phthalocyanine Green Cobalt Green Permanent Green Light Permanent Green Pale Hookers Green Sap Green Permanent Olive Green Yellow Shade 095, PG 50, LF I, SO, G 130, PG 7 & PY 151, LF I, SO, S 131, PG 7 & PY 3, LF II, T, S 108, PG 7 & PY 110, LF I, T, S 174, PG 7 & PY 110, LF I, T, S 125, PY 129 & PG 7 & PY 110 & 151, PG 36, LF I, T, S PBk 9, LF I, T, S Azo Green Transparent Yellow Yellow Ochre Raw Sienna Nickel Azo Yellow Naples Yellow Nickel Quinacridone 016, PY 129, LF I, T, S Iron Oxide 200, PY 43, LF I, ST, G 160, PBr 7, LF I, ST, G 123, PY 150, LF I, T, S 121, PBr 24, LF I, O, G Gold 188, PY 42, LF I, T, G 124, PO 48 & PY 150, LF I, T, S Transparent Orange Quinacridone Rust Transparent Red Burnt Sienna Terra Rosa Burnt Umber Raw Umber Iron Oxide 157, PO 48, LF I, T, S Iron Oxide 020, PBr 7*, LF I, ST, G 179, PR 101, LF I, O, G 030, PBr 7*, LF I, ST, G 170, PBr 7, LF I, ST, G 186, PY 42 & PR 101, LF I, T, G 187, PR 101, LF I, T, G Sepia Ivory Black Lamp Black Neutral Tint Paynes Gray Chinese White Titanium White Opaque 178, PBr 7* & PBk 6, LF I, ST, G 110, PBk 9, LF I, ST, G 112, PBk 6, LF I, ST, G 122, PV 19 & PG 7, LF I, T, S 128, PBk 9 & PB 29, LF I, ST, G 085 PW 6, LF I, O, G 180, PW 6, LF I, O, G LEGEND PIGMENT LISTING • PIGMENT COMPOSITION Lightfast Rating PB 15:0 Copper Phthalocyanine PG 36 Brominated Copper PV 15 Silicate of Sodium and Aluminum PB 15:3 Copper Phthalocyanine Phthalocyanine with Sulfur LF I Excellent PB 27 Ferriammonium Ferrocyanide PG 50 Cobalt Titanate PV 16 Manganese Ammonium Pyro LF ll Very Good PB 28 Oxides of Cobalt and Aluminum PO 20 Pure Cadmium Seleno-Sulfide Phosphate LF lll Acceptable* PB 29 Silicate of Sodium and PO 48 Quinacridone PV 19 Quinacridone (*Good in mass tone, tints will fade) Aluminum with Sulfur PO 62 Benzimidazolone PV 23 Carbazole Dioxazine Opacity Rating PB 36 Oxides of Cobalt and Chromium PO 73 Diketo Pyrrolopyrrol PW 6 Titanium Dioxide PB 60 Anthraquinone PR 83 Dihydroxyanthraquinone PY 3 Arylide T Transparent PBk 6 Nearly Pure Amorphous Carbon PR 101 Synthetic Iron Oxide PY 35 Pure Cadmium Zinc Sulfide ST Semi Transparent PBk 9 Amorphous Carbon PR 108 Pure Cadmium Seleno-Sulfide PY 42 Synthetic Iron Oxide SO Semi Opaque PBr 7* Calcined Natural Iron Oxide PR 112 Naphthol AS-D PY 43 Natural Hydrated Iron Oxide O Opaque PBr 7 Natural Iron Oxide PR 179 Perylene PY 97 Arylide PBr 24 Chromium Titanium Oxide PR 209 Quinacridone PY 110 Isoindolinone Stains & Sedimentary Codes PG 7 Chlorinated Copper PR 254 Diketo Pyrrolopyrrol PY 129 Azomethine Copper Complex Phthalocyanine PR 258 Silicate of Sodium & Aluminum PY 150 Nickel Azo Complex S Staining PG 18 Hydrous Chromium Sesquioxide with Sulfur PY 151 Benzimidazolone G Granulating or Sedimentary PR 264 Diketo Pyrrolopyrrol PY 184 Bismuth Vanadium Oxide Staining & Granulating occur in varying PV 14 Cobalt Phosphate degrees and these designations should be used as a loose guide M. Graham & Co.® • P.O. Box 215 West Linn, OR 97068-0215 • (503) 656-6761 • [email protected] • www.mgraham.com WATERCOLOR PALETTE.
Load more

Recommended publications
  • Boosting the Activity of Prussian-Blue Analogue As Efficient Electrocatalyst
    www.nature.com/scientificreports OPEN Boosting the activity of Prussian- blue analogue as efcient electrocatalyst for water and urea oxidation Yongqiang Feng 1*, Xiao Wang1, Peipei Dong1, Jie Li2, Li Feng1, Jianfeng Huang1*, Liyun Cao1, Liangliang Feng1, Koji Kajiyoshi3 & Chunru Wang 2* The design and fabrication of intricate hollow architectures as cost-efective and dual-function electrocatalyst for water and urea electrolysis is of vital importance to the energy and environment issues. Herein, a facile solvothermal strategy for construction of Prussian-blue analogue (PBA) hollow cages with an open framework was developed. The as-obtained CoFe and NiFe hollow cages (CFHC and NFHC) can be directly utilized as electrocatalysts towards oxygen evolution reaction (OER) and urea oxidation reaction (UOR) with superior catalytic performance (lower electrolysis potential, faster reaction kinetics and long-term durability) compared to their parent solid precursors (CFC and NFC) and even the commercial noble metal-based catalyst. Impressively, to drive a current density of 10 mA cm−2 in alkaline solution, the CFHC catalyst required an overpotential of merely 330 mV, 21.99% lower than that of the solid CFC precursor (423 mV) at the same condition. Meanwhile, the NFHC catalyst could deliver a current density as high as 100 mA cm−2 for the urea oxidation electrolysis at a potential of only 1.40 V, 24.32% lower than that of the solid NFC precursor (1.85 V). This work provides a new platform to construct intricate hollow structures as promising nano-materials for the application in energy conversion and storage. Hydrogen energy has been considered as one of the most promising alternatives to traditional fossil fuels such as coal and oil which have inevitably involved in the tough environmental and unsustainable energetic issues1,2.
    [Show full text]
  • Additions to the Rust Fungi of South Africa
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by RERO DOC Digital Library Mycol Progress (2012) 11:483–497 DOI 10.1007/s11557-011-0764-z ORIGINAL ARTICLE Additions to the rust fungi of South Africa Reinhard Berndt & Alan R. Wood Received: 7 February 2011 /Revised: 15 April 2011 /Accepted: 19 April 2011 /Published online: 28 May 2011 # German Mycological Society and Springer 2011 Abstract This paper presents new species, combinations, Leucosidea sericea (Rosaceae), Uromyces cypericola whose national reports and host records for the South African rust urediniospores are described for the first time, Phakopsora fungi (Uredinales/Pucciniales). Endophyllum mpenjatiense stratosa in that spermogonia and Uredo-like aecia were on cf. Hibiscus sp. (Malvaceae), Phakopsora combretorum discovered, and for Sphaerophragmium dalbergiae in that (anamorph Uredo combreticola) on the new host Combretum characters of the urediniospores are re-evaluated. A lectotype apiculatum (Combretaceae) and Uredo sekhukhunensis on is selected for Aecidium garckeanum and spermogonia are Ziziphus mucronata (Rhamnaceae) are described as new reported for this rust for the first time. The rust fungi of species. Dietelia cardiospermi and E. metalasiae are Ehrharta (Poaceae) are discussed and critically evaluated in proposed as new combinations to replace Aecidium cardio- the light of spore morphology and host species. spermi on Cardiospermum halicacabum (Sapindaceae) and A. metalasiae on Metalasia spp. (Asteraceae), respectively. Keywords Combretum . Dietelia . Ehrharta . Four species are new records for South Africa: Crossopsora Endophyllum . Ziziphus antidesmae-dioicae on Antidesma venosum (Euphorbiaceae), Phakopsora ziziphi-vulgaris on Z. mucronata,andUromyces cypericola and Puccinia subcoronata, both on a new host, Introduction Cyperus albostriatus (Cyperaceae).
    [Show full text]
  • Color Chart ® ® ® ® Closest Pantone® Equivalent Shown
    ™ ™ II ® Color Chart ® ® ® ® Closest Pantone® equivalent shown. Due to printing limitations, colors shown 5807 Reflective ® ® ™ ® ® and Pantone numbers ® ™ suggested may vary from ac- ECONOPRINT GORILLA GRIP Fashion-REFLECT Reflective Thermo-FILM Thermo-FLOCK Thermo-GRIP ® ® ® ® ® ® ® tual colors. For the truest color ® representation, request Scotchlite our material swatches. ™ CAD-CUT 3M CAD-CUT CAD-CUT CAD-CUT CAD-CUT CAD-CUT CAD-CUT Felt Perma-TWILL Poly-TWILL Thermo-FILM Thermo-FLOCK Thermo-GRIP Vinyl Pressure Sensitive Poly-TWILL Sensitive Pressure CAD-CUT White White White White White White White White White* White White White White White Black Black Black Black Black Black Black Black Black* Black Black Black Black Black Gold 1235C 136C 137C 137C 123U 715C 1375C* 715C 137C 137C 116U Red 200C 200C 703C 186C 186C 201C 201C 201C* 201C 186C 186C 186C 200C Royal 295M 294M 7686C 2747C 7686C 280C 294C 294C* 294C 7686C 2758C 7686C 654C Navy 296C 2965C 7546C 5395M 5255C 5395M 276C 532C 532C* 532C 5395M 5255C 5395M 5395C Cool Gray Warm Gray Gray 7U 7539C 7539C 415U 7538C 7538C* 7538C 7539C 7539C 2C Kelly 3415C 341C 340C 349C 7733C 7733C 7733C* 7733C 349C 3415C Orange 179C 1595U 172C 172C 7597C 7597C 7597C* 7597C 172C 172C 173C Maroon 7645C 7645C 7645C Black 5C 7645C 7645C* 7645C 7645C 7645C 7449C Purple 2766C 7671C 7671C 669C 7680C 7680C* 7680C 7671C 7671C 2758U Dark Green 553C 553C 553C 447C 567C 567C* 567C 553C 553C 553C Cardinal 201C 188C 195C 195C* 195C 201C Emerald 348 7727C Vegas Gold 616C 7502U 872C 4515C 4515C 4515C 7553U Columbia 7682C 7682C 7459U 7462U 7462U* 7462U 7682C Brown Black 4C 4675C 412C 412C Black 4C 412U Pink 203C 5025C 5025C 5025C 203C Mid Blue 2747U 2945U Old Gold 1395C 7511C 7557C 7557C 1395C 126C Bright Yellow P 4-8C Maize 109C 130C 115U 7408C 7406C* 7406C 115U 137C Canyon Gold 7569C Tan 465U Texas Orange 7586C 7586C 7586C Tenn.
    [Show full text]
  • Bone, Antler, Ivory and Teeth (PDF)
    Bone, Antler, Ivory, and Teeth Found in such items as tools, jewelry, and decorations Identification and General Information Items derived from skeletal materials are both versatile and durable. Bone, antler, ivory, and teeth have been used for various tools and for ornamentation. Because ivory is easily carved yet durable, it has also long been used by many cultures as a medium for recorded information. Bones and teeth from many different animals, including mammals, birds, and fish, may be found in items in all shapes and sizes. Each culture uses the indigenous animals in its region. Identifying bones and teeth used in an item can be easy or difficult, depending on how they were processed and used. Frequently, bones and teeth were minimally processed, and the surfaces are still visible, allowing identification by color (off-white to pale yellow), shape, and composition. Bird, fish, and reptile bones are usually lighter in mass and color than mammal bones. Bone and antler can be used in their natural form, or polished with sand and other abrasives to a very smooth and glossy surface. Bone is sometimes confused with ivory, which is also yellowish and compact. Sea mammal ivory, which is the prevalent source used by American Indians, is distinct in structure. Walrus ivory, the most common sea mammal ivory, has a dense outer layer and a mottled inner core. Bone and antler in archaeological collections are often burnt and can be blue black to whitish gray. Charred bone or antler can be mistaken for wood. Magnification helps to distinguish bone from similar materials, as it has a thin solid layer surrounding a porous interior structure with a hollow core where the marrow is contained.
    [Show full text]
  • Pale Intrusions Into Blue: the Development of a Color Hannah Rose Mendoza
    Florida State University Libraries Electronic Theses, Treatises and Dissertations The Graduate School 2004 Pale Intrusions into Blue: The Development of a Color Hannah Rose Mendoza Follow this and additional works at the FSU Digital Library. For more information, please contact [email protected] THE FLORIDA STATE UNIVERSITY SCHOOL OF VISUAL ARTS AND DANCE PALE INTRUSIONS INTO BLUE: THE DEVELOPMENT OF A COLOR By HANNAH ROSE MENDOZA A Thesis submitted to the Department of Interior Design in partial fulfillment of the requirements for the degree of Master of Fine Arts Degree Awarded: Fall Semester, 2004 The members of the Committee approve the thesis of Hannah Rose Mendoza defended on October 21, 2004. _________________________ Lisa Waxman Professor Directing Thesis _________________________ Peter Munton Committee Member _________________________ Ricardo Navarro Committee Member Approved: ______________________________________ Eric Wiedegreen, Chair, Department of Interior Design ______________________________________ Sally Mcrorie, Dean, School of Visual Arts & Dance The Office of Graduate Studies has verified and approved the above named committee members. ii To Pepe, te amo y gracias. iii ACKNOWLEDGMENTS I want to express my gratitude to Lisa Waxman for her unflagging enthusiasm and sharp attention to detail. I also wish to thank the other members of my committee, Peter Munton and Rick Navarro for taking the time to read my thesis and offer a very helpful critique. I want to acknowledge the support received from my Mom and Dad, whose faith in me helped me get through this. Finally, I want to thank my son Jack, who despite being born as my thesis was nearing completion, saw fit to spit up on the manuscript only once.
    [Show full text]
  • STMGA-GOLD-RED-W-Winter-Rules
    STMGA GOLD/RED TEE POLICY Effective February 1, 2015, the STMGA policy to move to or from the gold/red tees is as follows: 1. A STMGA member may, at his discretion, elect to move to the gold/red tees for STMGA events and have his handicap calculated from the gold or red tees on the STMGA handicap list. 2. A player may make one move (either to the gold/red tees or return to the gold/white tees) in any STMGA membership year which is from Oct.1 to Sept. 30. 3. A player must request a change in writing or via email to the STMGA handicap chairman. The change will become effective with the next publication of STMGA handicaps on the 1st and 15th of the month. 4. A player incurring a disability which might cause him to temporarily move to the gold/red tees, may submit a request to the STMGA Handicap Committee for approval at any time. He will not be subject to #2 above. 5. Before playing from the new tees in any Major Tournament* a player must report for handicap calculation at least 5 scores played from the new tees. *(Member/Guest, Spring and Fall Member/Member, Club Championship) Note: this policy in no way should be interpreted as a dictate on which tees a player plays from in non-STMGA events. That decision is up to the player and the group he is playing with. Winter Play Tee Policy: * 1. A player may make a “winter season” decision to move forward one tee box on November 1st and must move back one tee box March 1st, not before.
    [Show full text]
  • 54.03 Application for a Color Trademark Consisting of a Gold Color, Etc
    54.03 54.03 Application for a Color Trademark Consisting of a Gold Color, etc. In the case of an application claiming a color trademark, if the color is a metallic color such as gold and silver or any other similar thereto ("gold, etc."), it would be almost impossible to present the color in a trademark sample or define the color under a color specification system such as RGB. An application for such color would be accepted only if the applicant fills out the trademark sample section by presenting a color similar to the claimed color and states, in the section "Detailed explanation of the trademark," the registration number, etc. of the claimed color in a trademark sample book that is widely used. (Example 1) Example of an acceptable trademark sample of a single color trademark consisting of a gold color (Example 1-1) (Example 1-2) Trademark sample expressing a color Trademark sample expressing a color similar to gold by using color gradations similar to gold by presenting an approximate color [Explanation] Gold, etc. is not merely a color but is also a concept including elements of luster and texture. Metallic luster, etc. is caused as a result of mutual interaction between the free electrons in the metal, etc. and the photons coming from outside. It would be possible to present gold, etc. expressing its luster and other characteristics by using color gradations. However, it would be impossible to accurately present the color in a trademark sample. Thus, it would suffice if the applicant presents a color similar to gold in a trademark sample.
    [Show full text]
  • Study of Fragments of Mural Paintings from the Roman Province Of
    Study of fragments of mural paintings from the Roman province of Germania Superior Thesis submitted in partial fulfilment of the requirements of the degree Doctor rer. nat. of the Faculty of Environment and Natural Resources, Albert-Ludwigs-Universität Freiburg im Breisgau, Germany by Rafaela Debastiani Freiburg im Breisgau, Germany 2016 Name of Dean: Prof. Dr. Tim Freytag Name of Supervisor: Prof. Dr. Michael Fiederle Name of 2nd Reviewer: PD Dr. Andreas Danilewsky Date of thesis' defense: 03.02.2017 “The mind is not a vessel to be filled, but a fire to be kindled” Plutarch Contents Nomenclature ........................................................................................................................ 1 Acknowledgment ................................................................................................................... 3 Abstract ................................................................................................................................. 5 Zusammenfassung ................................................................................................................ 7 1. Introduction .................................................................................................................... 9 2. Analytical techniques in the non-destructive analyses of fragments of mural paintings ..13 2.1 X-ray Fluorescence Spectroscopy ..........................................................................13 2.1.1 Synchrotron-based scanning macro X-ray fluorescence (MA-XRF) .................17
    [Show full text]
  • Cortinarius Caperatus (Pers.) Fr., a New Record for Turkish Mycobiota
    Kastamonu Üni., Orman Fakültesi Dergisi, 2015, 15 (1): 86-89 Kastamonu Univ., Journal of Forestry Faculty Cortinarius caperatus (Pers.) Fr., A New Record For Turkish Mycobiota *Ilgaz AKATA1, Şanlı KABAKTEPE2, Hasan AKGÜL3 Ankara University, Faculty of Science, Department of Biology, 06100, Tandoğan, Ankara Turkey İnönü University, Battalgazi Vocational School, TR-44210 Battalgazi, Malatya, Turkey Gaziantep University, Department of Biology, Faculty of Science and Arts, 27310 Gaziantep, Turkey *Correspending author: [email protected] Received date: 03.02.2015 Abstract In this study, Cortinarius caperatus (Pers.) Fr. belonging to the family Cortinariaceae was recorded for the first time from Turkey. A short description, ecology, distribution and photographs related to macro and micromorphologies of the species are provided and discussed briefly. Keywords: Cortinarius caperatus, mycobiota, new record, Turkey Cortinarius caperatus (Pers.) Fr., Türkiye Mikobiyotası İçin Yeni Bir Kayıt Özet Bu çalışmada, Cortinariaceae familyasına mensup Cortinarius caperatus (Pers.) Fr. Türkiye’den ilk kez kaydedilmiştir. Türün kısa deskripsiyonu, ekolojisi, yayılışı ve makro ve mikro morfolojilerine ait fotoğrafları verilmiş ve kısaca tartışılmıştır. Anahtar Kelimeler: Cortinarius caperatus, Mikobiyota, Yeni kayıt, Türkiye Introduction lamellae edges (Arora, 1986; Hansen and Cortinarius is a large and complex genus Knudsen, 1992; Orton, 1984; Uzun et al., of family Cortinariaceae within the order 2013). Agaricales, The genus contains According to the literature (Sesli and approximately 2 000 species recognised Denchev, 2008, Uzun et al, 2013; Akata et worldwide. The most common features al; 2014), 98 species in the genus Cortinarius among the members of the genus are the have so far been recorded from Turkey but presence of cortina between the pileus and there is not any record of Cortinarius the stipe and cinnamon brown to rusty brown caperatus (Pers.) Fr.
    [Show full text]
  • Rust Disease of Water Willow Intercepted in Import Plant Quarantine in Japan
    RES.BULL.PL.PROT.JAPAN No. 41: 59~64(2005) Short Communication Rust Disease of Water Willow Intercepted in Import Plant Quarantine in Japan Yoichi MOTOKURA, Masayoshi NAGASE*, Akihiro OOI**, Koshi UEDA, and SHIGERU KIMURA Research Division, Yokohama Plant Protection Station 1-16-10, Shin-yamashita, Naka-ku, Yokohama 231- 0801, Japan. * Nagoya Airport Branch, Nagoya Plant Protection Station ** Nagoya Plant Protection Station Abstract: A rust disease on water willow(Justicia gendarussa Burm f.)was found at an import plant quar- antine inspection at Nagoya airport, in January, 2002. The causal rust fungus was identified with Puccinia thwaitesii Berk., based on it's morphology and the results of inoculation experiments. This is the first report on the interception of rust disease of water willow caused by P. thwaitesii at import plant quarantine inspection in Japan. Key words: rust, water willow, Justicia gendarussa, Puccinia thwaitesii Introduction Water willow(Justicia gendarussa Burm f..)is a perennial shrub native to the tropical and sub- tropical zones of the Asia, and it belongs to Acanthaceae(Editorial Committee of the Flora of Taiwan,1998). In the Southeast Asia, this plant is utilized as a raw material of Chinese medicine, or as a medicine for rheumatism(IWATSUKI et. al. ed., 1997). In our country, water willow is introduced and used as an ornamental plant, mainly for indoor. In January 2002, potted plants of water willow infected with a rust disease were found at an import plant quarantine inspection at Komaki(Nagoya international airport)in Japan. They were plants imported from Thailand for use as the ornamental foliage.
    [Show full text]
  • Museum of Economic Botany, Kew. Specimens Distributed 1901 - 1990
    Museum of Economic Botany, Kew. Specimens distributed 1901 - 1990 Page 1 - https://biodiversitylibrary.org/page/57407494 15 July 1901 Dr T Johnson FLS, Science and Art Museum, Dublin Two cases containing the following:- Ackd 20.7.01 1. Wood of Chloroxylon swietenia, Godaveri (2 pieces) Paris Exibition 1900 2. Wood of Chloroxylon swietenia, Godaveri (2 pieces) Paris Exibition 1900 3. Wood of Melia indica, Anantapur, Paris Exhibition 1900 4. Wood of Anogeissus acuminata, Ganjam, Paris Exhibition 1900 5. Wood of Xylia dolabriformis, Godaveri, Paris Exhibition 1900 6. Wood of Pterocarpus Marsupium, Kistna, Paris Exhibition 1900 7. Wood of Lagerstremia parviflora, Godaveri, Paris Exhibition 1900 8. Wood of Anogeissus latifolia , Godaveri, Paris Exhibition 1900 9. Wood of Gyrocarpus jacquini, Kistna, Paris Exhibition 1900 10. Wood of Acrocarpus fraxinifolium, Nilgiris, Paris Exhibition 1900 11. Wood of Ulmus integrifolia, Nilgiris, Paris Exhibition 1900 12. Wood of Phyllanthus emblica, Assam, Paris Exhibition 1900 13. Wood of Adina cordifolia, Godaveri, Paris Exhibition 1900 14. Wood of Melia indica, Anantapur, Paris Exhibition 1900 15. Wood of Cedrela toona, Nilgiris, Paris Exhibition 1900 16. Wood of Premna bengalensis, Assam, Paris Exhibition 1900 17. Wood of Artocarpus chaplasha, Assam, Paris Exhibition 1900 18. Wood of Artocarpus integrifolia, Nilgiris, Paris Exhibition 1900 19. Wood of Ulmus wallichiana, N. India, Paris Exhibition 1900 20. Wood of Diospyros kurzii , India, Paris Exhibition 1900 21. Wood of Hardwickia binata, Kistna, Paris Exhibition 1900 22. Flowers of Heterotheca inuloides, Mexico, Paris Exhibition 1900 23. Leaves of Datura Stramonium, Paris Exhibition 1900 24. Plant of Mentha viridis, Paris Exhibition 1900 25. Plant of Monsonia ovata, S.
    [Show full text]
  • Personal Enrichment Courses SUPPLY LIST
    Personal Enrichment Courses SUPPLY LIST Beginning Acrylics Intermediate Acrylics Instructor: Patti Overholt Instructor: Patti Overholt Niceville Campus Niceville Campus Please try to purchase Galeria Acrylic Paints Supply List (Windsor Newton) for best color mixing results. 1. CANVAS: One 8x10 Canvas Panel Supply List One 9 x 12 Canvas Panel 1. CANVAS: One 8x10 Gallery Wrapped Canvas Three 8x10 Canvas Panels 2. BRUSHES: 2. BRUSHES: #1 inch and a #0.5 inch Flat Brush #1 inch and a #0.5 inch Flat Brush #4 inch and a #8 Filbert #4 inch and a #8 Filbert #8 inch Round Brush #8 inch Round Brush A fan Brush A fan Brush A one inch craft brush A one inch craft brush 3 Palettes Knives, Small, Med. and Large 3. ACRYLIC PAINT: 3. ACRYLIC PAINT: (Starter Sets are available online and at local craft stores. Hobby (Starter Sets are available online and at local craft stores. Hobby Lobby has the best coupon offers. PLEASE avoid cheap paints as Lobby has the best coupon offers. PLEASE avoid cheap paints as colors are off and the pigments are thin.) colors are off and the pigments are thin.) • Ultramarine Blue • Ultramarine Blue • Cerulean Blue • Cerulean Blue • Alizarin Crimson • Alizarin Crimson • Rose Pink • Rose Pink • Cadmium Red Medium • Cadmium Red Medium • Cadmium Yellow Medium • Cadmium Yellow Medium • Yellow Ochre • Yellow Ochre • Indian Yellow • Indian Yellow • Titanium White • Titanium White • Unbleached Titanium (Buff • Unbleached Titanium (Buff White) White) • Burnt Umber • Burnt Umber • Acrylic Extender • Acrylic Extender MISCELLANEOUS: MISCELLANEOUS: Brush Holder for water Plastic Palette Plastic Bottle with water Styrofoam Trays Paper Towels Small jar Golden Moulding Paste Package of Handy or Baby Wipes Brush Holder for water Plastic Bottle with water Paper Towels Package of Handy or Baby Wipes Saran Wrap Personal Enrichment Courses SUPPLY LIST Acrylic Painting Have Fun Drawing Instructor: Marvin Tweedy Instructor: Patti Overholt DeFuniak Springs Campus Niceville Campus Supply List Supply List 1.
    [Show full text]