Adam Equipment Product Brochure

Total Page:16

File Type:pdf, Size:1020Kb

Adam Equipment Product Brochure Eclipse Analytical Balances Speed, Performance, Value - Perfect Balance · Large easy to read LCD display · Percentage weighing · Capacity tracker · Check weighing · Grade 304 stainless steel pan · Check counting · Level indicator with adjustable levelling feet · Animal / dynamic weighing · Removable draft shield supplied on 0.001g · Weight accumulation readabilities · Density determination · Weighing · Parts counting www.adamequipment.com Technical Specifications Model E E E E E E E E E E E E E E E E E E E E E E B B B B B Bl B B B B B B B B B B B B B B B B L L L L L 31 L L L L L L L L L L L L L L L L 10 16 21 25 31 4i 22 42 62 82 10 16 10 16 21 25 22 42 62 82 10 16 4e 4e 4e 4e 4e 3e 3e 3e 3e 23 23 4i 4i 4i 4i 3i 3i 3i 3i 23 23 e e i i Maximum capacity 10 16 21 25 31 31 22 42 62 82 10 16 10 16 21 15 22 42 62 82 10 16 0g 0g 0g 0g 0g 0g 0g 0g 0g 0g 20 20 0g 0g 0g 0g 0g 0g 0g 0g 20 20 g g g g Readability 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 01 01 01 01 01 1g 1g 1g 1g 1g 1g 01 01 01 01 1g 1g 1g 1g 1g 1g g g g g g g g g g g Repeatability (S.D.) 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 02 02 02 02 02 2g 2g 2g 2g 2g 2g 01 02 02 02 2g 2g 2g 2g 2g 2g 5g g g g g g 5g g g g Units of Gram (g), Milligram (mg), Carat (ct), Gram Gram (g), Milligram (mg), Gram measurement Grain (GN), Newton (N), Dram (d), (g), Carat (ct), Grain (GN), (g), Troy Ounce (Ozt), Pennyweight (dWt), Kilogr Newton (N), Dram (d), Troy Kilogr Momme (MM), Taels T. (TL.T), Taels am Ounce (Ozt), Pennyweight am Hk. (TL.H), Taels S. (TL.S), Tical (ti), (kg), (dWt), Momme (MM), Taels T. (kg), Tola (T), Custom unit Carat (TL.T), Taels Hk. (TL.H), Carat (ct), Taels S. (TL.S), Tical (ti), Tola (ct), Grain (T), Custom unit Grain (GN), (GN), Newto Newto n (N), n (N), Dram Dram (d), (d), Troy Troy Ounce Ounce (Ozt), (Ozt), Penny Penny weight weight (dWt), (dWt), Mom Mom me me (MM), (MM), Taels Taels T. T. (TL.T) (TL.T) , , Taels Taels Hk. Hk. (TL.H) (TL.H) , , Taels Taels S. S. (TL.S) (TL.S) , Tical , Tical (ti), (ti), Tola Tola (T), (T), Custo Custo m unit m unit Newto Newto n (N) n (N) Pan size 3.5" Ø / 90mm 4.7" 6.3" Ø 3.5" 2. 4.7" 6.3" Ø ØAdam Equipment&Osla - offices/ 160mm worldwideØ / 4" &Osla / 160mm sh; / Ø 90mm & sh; / Ø General Specificationswww.adamequipment.com120m Ø O 120m m sl m Typical stabilisationAdam Equipment follows time a policy of continuous improvement&Osla and reserves the right to change5 specifications Sec without notice.as © December&Osla 17th 2015 Power supply sh; 18VDC 60/60Hz h; sh; Key Accessories / 60 · Dust Cover for 0.001g to 0.1g balances upto 8200g m · Pillar option (factory fitted) for models with 300 x 400mm base size only m · Below Balance Hanger & · In use cover for 0.1g balances 12000g and more O · USB Cable sl · Anti-Vibration Table as · Thermal Paper For Adam ATP (10 pack) h; · ATP Thermal Printer · In use cover for 0.0001g balances · Dust Cover for 0.1mg balances · Adam DU - Data Collection Program · RS-232 to PC Cable.
Recommended publications
  • Units of Weight and Measure : Definitions and Tables of Equivalents
    Units of Weight and Measure (United States Customary and Metric) Definitions and Tables of Equivalents United States Department of Commerce National Bureau of Standards Miscellaneous Publication 233 THE NATIONAL BUREAU OF STANDARDS Functions and Activities The functions of the National Bureau of Standards are set forth in the Act of Congress, March 3, 1901, as amended by Congress in Public Law 619, 1950. These include the development and maintenance of the national standards of measurement and the provision of means and methods for making measurements consistent with these standards; the determination of physical constants and properties of materials; the development of methods and instruments for testing materials, devices, and structures; advisory services to government agencies on scientific and technical problems; invention and development of devices to serve special needs of the Government; and the development of standard practices, codes, and specifications. The work includes basic and applied research, development, engineering, instrumentation, testing, evaluation, calibration services, and various consultation and information services. Research projects are also performed for other government agencies when the work relates to and supplements the basic program of the Bureau or when the Bureau's unique competence is required. The scope of activities is suggested by the fisting of divisions and sections on the inside of the back cover. Publications The results of the Bureau's work take the form of either actual equipment and devices
    [Show full text]
  • Weights and Measures Standards of the United States—A Brief History (1963), by Lewis V
    WEIGHTS and MEASURES STANDARDS OF THE UMIT a brief history U.S. DEPARTMENT OF COMMERCE NATIONAL BUREAU OF STANDARDS NBS Special Publication 447 WEIGHTS and MEASURES STANDARDS OF THE TP ii 2ri\ ii iEa <2 ^r/V C II llinCAM NBS Special Publication 447 Originally Issued October 1963 Updated March 1976 For sale by the Superintendent of Documents, U.S. Government Printing Office Wash., D.C. 20402. Price $1; (Add 25 percent additional for other than U.S. mailing). Stock No. 003-003-01654-3 Library of Congress Catalog Card Number: 76-600055 Foreword "Weights and Measures," said John Quincy Adams in 1821, "may be ranked among the necessaries of life to every individual of human society." That sentiment, so appropriate to the agrarian past, is even more appropriate to the technology and commerce of today. The order that we enjoy, the confidence we place in weighing and measuring, is in large part due to the measure- ment standards that have been established. This publication, a reprinting and updating of an earlier publication, provides detailed information on the origin of our standards for mass and length. Ernest Ambler Acting Director iii Preface to 1976 Edition Two publications of the National Bureau of Standards, now out of print, that deal with weights and measures have had widespread use and are still in demand. The publications are NBS Circular 593, The Federal Basis for Weights and Measures (1958), by Ralph W. Smith, and NBS Miscellaneous Publication 247, Weights and Measures Standards of the United States—a Brief History (1963), by Lewis V.
    [Show full text]
  • Sartorius Cubis Toploading Balances
    SARTORIUS Cubis ® Toploading Balances Capacity: 1,200 g-12,200 g Readability: 0.01 g-0.1 g BALANCES Standard Features • Fast stabilization time • Module design • User configurable and custom designed to meet changing applications • Meets advanced Pharma compliance including user/password management for security, audit trail function logs and integrated alibi memory • Q-guide enables tasks and work • Electrically conductive coating on glass panels of draft shield • RS-232 and USB communication • Easy cleaning by removing glass doors • Underweigh hook included • Choice of display • MSE-large LCD display and easy menu system • MSU-monochrome graphic display, positive click on keys to activate The modular system offers you functions, Ethernet and SD card reader a choice of display and control units, • MSA-TFT color touchscreen, Ethernet and SD card weighing modules and draft shields reader options Optional Features • Bluetooth® wireless technology Specifications 1202S 2202S 4202S 6202P 6202S 8202S 10202S Part # 109832 109831 109830 109829 109828 109827 109826 MSE* List Price Consult Consult Consult Consult Consult Consult Consult Part # 109842 109841 109840 109839 109838 109837 109836 MSU** List Price Consult Consult Consult Consult Consult Consult Consult Part # 109852 109851 109850 109849 109848 109847 109846 www.ricelake.com | Phone: 800-472-6703 www.ricelake.com List Price Consult Consult Consult Consult Consult Consult Consult MSA*** Capacity 1,200 g 2,200 g 4,200 g 1,500/3,000/6,200 g 6,200 g 8,200 g 10,200 g Resolution 10 mg 10 mg
    [Show full text]
  • English Customary Weights and Measures
    English Customary Weights and Measures Distance In all traditional measuring systems, short distance units are based on the dimensions of the human body. The inch represents the width of a thumb; in fact, in many languages, the word for "inch" is also the word for "thumb." The foot (12 inches) was originally the length of a human foot, although it has evolved to be longer than most people's feet. The yard (3 feet) seems to have gotten its start in England as the name of a 3-foot measuring stick, but it is also understood to be the distance from the tip of the nose to the end of the middle finger of the outstretched hand. Finally, if you stretch your arms out to the sides as far as possible, your total "arm span," from one fingertip to the other, is a fathom (6 feet). Historically, there are many other "natural units" of the same kind, including the digit (the width of a finger, 0.75 inch), the nail (length of the last two joints of the middle finger, 3 digits or 2.25 inches), the palm (width of the palm, 3 inches), the hand (4 inches), the shaftment (width of the hand and outstretched thumb, 2 palms or 6 inches), the span (width of the outstretched hand, from the tip of the thumb to the tip of the little finger, 3 palms or 9 inches), and the cubit (length of the forearm, 18 inches). In Anglo-Saxon England (before the Norman conquest of 1066), short distances seem to have been measured in several ways.
    [Show full text]
  • COIN WEIGHTS. HE Antiquity of Coin Weights Is Probably As High As Of
    COIN WEIGHTS. BY L. A. LAWRENCE. HE antiquity of coin weights is probably as high as of coins themselves, but, in the English series, owing largely perhaps to their want of artistic merit and the base metal generally used in their manufacture, they have excited but little interest and practically no study. That they are worthy of more recognition than has hitherto been accorded to them I hope to be able to show in the sequel. Ruding quotes many documents referring to coin weights, and the pieces themselves as a whole are abundant. I have, however, never yet seen either in a museum or elsewhere a collection of classified coin weights, nor do I know of a treatise on them. Probably in Saxon and Norman times owing to the frequent change of type, and the existence of money taxes in connection with new issues, there was no need of supplying counterpoises to the people. When the three years' limit of issue was in use there could not have been much loss of weight due to circulation, and as silver, the only metal then represented by the currency, was not of any high value in relation to other metals, the loss was probably borne by the ultimate owner when he came to have his old money exchanged for new. When, however, the coins had to do longer duty than three years, viz., in early Plantagenet times, and a little later when gold was added as a standard metal for coinage, the use of counterpoises became necessary to the people. Special weights would seem never to have been very popular with the multitude, possibly it was less expensive or easier to use the ordinary pennyweight and grain measure 288 Coin eights.
    [Show full text]
  • Appendix C – General Tables of Units of Measurement
    Handbook 44 – 2014 Appendix C – General Tables of Units of Measurement Table of Contents Appendix C. General Tables of Units of Measurement ........................................................ C-3 1. Tables of Metric Units of Measurement ..................................................................................................... C-3 Units of Length ............................................................................................................................................... C-3 Units of Area .................................................................................................................................................. C-3 Units of Liquid Volume .................................................................................................................................. C-4 Units of Volume ............................................................................................................................................. C-4 Units of Mass .................................................................................................................................................. C-4 2. Tables of U.S. Units of Measurement ......................................................................................................... C-4 Units of Length ............................................................................................................................................... C-4 Units of Area .................................................................................................................................................
    [Show full text]
  • UNITS of WEIGHT and MEASURE International (Metric) and U.S
    I \ ___^am UNITS OF WEIGHT AND MEASURE International (Metric) and U.S. Customary Definitions and Tables of Equivalents ivit I crv¥Hi\u M I I I Arm 'K^ he I I ^Nfck. r a law I I mmm I m mmJr \mw I mum lARE-ACRt STANDARDS U.S. DEPARTMENT OF COMMERCE / NATIONAL BUREAU OF Miscellaneous Publication 286 : THE NATIONAL BUREAU OF STANDARDS The National Bureau of Standards 1 provides measurement and technical information services essential to the efficiency and effectiveness of the work of the Nation's scientists and engineers. The Bureau serves also as a focal point in the Federal Government for assur- ing maximum application of the physical and engineering sciences to the advancement of technology in industry and commerce. To accomplish this mission, the Bureau is organized into three institutes covering broad program areas of research and services: THE INSTITUTE FOR BASIC STANDARDS . provides the central basis within the United States for a complete and consistent system of physical measurements, coor- dinates that system with the measurement systems of other nations, and furnishes essential services leading to accurate and uniform physical measurements throughout the Nation's scientific community, industry, and commerce. This Institute comprises a series of divisions, each serving a classical subject matter area: —Applied Mathematics—Electricity—Metrology—Mechanics—Heat—Atomic Phys- ics—Physical Chemistry—Radiation Physics—Laboratory Astrophysics 2—Radio Standards Laboratory, 2 which includes Radio Standards Physics and Radio Standards Engineering—Office of Standard Reference Data. THE INSTITUTE FOR MATERIALS RESEARCH . conducts materials research and provides associated materials services including mainly reference materials and data on the properties of materials.
    [Show full text]
  • Weights and Measures the Avoirdupois Is the Common Weight System for Most Items. for Example, Cooking and the Postal System
    Weights and Measures The Avoirdupois is the common weight system for most items. For example, cooking and the postal system are in Av. ounces. Use troy ounce for precious metals. 20 dwt. (pennyweight) = 1 troy oz. 31.1 grams = 1 troy oz. 480 grains = 1 troy oz. 12 troy oz. = 1 troy lb. 1 dwt. (pennyweight) = 1.555 grams 14.583 troy ounces = 1 Avoirdupois lb. 16 Avoirdupois (Av) = 1 Avoirdupois lb. History plays a big role in the designation of precious metal terms. The Pennyweight used to measure precious metals originated in England from the 700’s to about 991 A.D. The pennyweight was the actual weight of an English Sterling Silver Penny coin. A pennyweight is equal to 24 grains. A Grain originally was the weight of a grain of wheat or barley from the middle part of the ear of grain. In the history of money, we have we have continued to borrow from the Romans. Libra is Latin for pound which is where the pound sterling of England arose. To this day, the English pound is so designated by “L”. In weights and measures, the short hand designation of pound is written lb. derived from the Roman Libra. Further, denarius the Latin word came to stand for penny in the English language. Denarius was abbreviated commonly by “d”. Thus pennyweight is abbreviated as dwt. The Troy system is so named from Troyes, France where they measured 480 grains to equal a troy ounce. In Troyes, 12 troy ounces equaled one troy pound. The price of precious metal markets are expressed in the troy ounce system to this day.
    [Show full text]
  • Units and Systems of Weights and Measures Their Origin, Development, and Present Status
    November 1985 U.S. DEPARTMENT OF COMMERCE LETTER CIRCULAR NATIONAL BUREAU OF STANDARDS LC 1035 GAITHERSBURG, MD 20899 UNITS AND SYSTEMS OF WEIGHTS AND MEASURES THEIR ORIGIN, DEVELOPMENT, AND PRESENT STATUS 1 . INTRODUCTION The National Bureau of Standards was established by act of Congress in 1901 to serve as a National scientific laboratory in the physical sciences and to provide fundamental measurement standards for science and industry. In carrying out these related functions the Bureau conducts research and development in many fields of physics, mathematics, chemistry, and engineering. At the time of its founding, the Bureau had custody of two primary standards— the meter bar for length and the kilogram cylinder for mass (or weight). With the phenomenal growth of science and technology over the past half century, the Bureau has become a major research institution concerned not only with everyday weights and measures but also with hundreds of other scientific and engineering standards that have become necessary to the industrial progress of the Nation. Neverthe- less, the country still looks to the Bureau for information on the units of weights and measures, particularly their definitions and equivalents. The subject of weights and measures can be treated from several different stand- points. Scientists and engineers are interested in the methods by which precision measurements are made; State weights and measures officials are concerned with laws and regulations on the subject and with methods for verifying commercial weighing and measuring devices. But a vastly larger group of people is interested in some general knowledge of the origin and development of weights and measures, of the present status of units and standards, and of miscellaneous facts that will be useful in everyday life.
    [Show full text]
  • Spotlight a Study of Constitutional Issues by Topic
    Issue 4: Standard Unit of Value SpotLight A Study of Constitutional Issues by Topic Topic: Establishing a Grain of Gold as the Market Standard Unit of Value As the once-proud American Dollar continues its The "pennyweight" is the least-familiar unit in the tragic decline, large numbers of Americans yearn for a troy weight system, of 24 grains, with 20 pennyweights stable alternative. A brief review of American coinage per troy ounce (480 grains/troy ounce). history provides helpful insight in this quest. In the 1834 act, besides regulating the value of the In the April 2, 1792 Coinage Act, Congress fixed the existing gold coins at a new rate per unit of troy weight, "dollar" as a coin of 371.25 grains of pure silver in the Congress also specified new reduced-weight gold coins standard weight with copper alloy at 416 grains. again at familiar value increments ($10/$5/$2.50) while indirectly changing the silver/gold parity to ~16:1. The name of the unit, its weight and purity were all largely modeled after the international trade coin of the day Due to an escalating relative glut of silver in the used throughout the States, the Spanish milled dollar. This market, Congress in the Act of February 12, 1873, was the case even as colonial-era accounts were yet temporarily ceased coining the venerable silver dollar and denominated in pounds, shillings and pence (please note began striking the slightly-heavier "Trade Dollar." that widespread use of a market coin not even officially Information struck on the coin’s reverse was not only denominated as the money of account has proven the country of origin ("United States of America"), motto successful in later changing the legal money of account).
    [Show full text]
  • British Slang for Pounds and Pennies, Old and New
    You Pays Yer Money and You Takes Yer Choice: British Slang for Pounds and Pennies, Old and New LEONARD R. N. ASHLEY I "HAVE YOU EVER THOUGHT," asks Simon Potter in Our Language (1950), "of the numerous slang terms for 'lnoney' which have been fash- ionable in your own experience ~" 'VeIl, as a matter of fact, I have. From time to time I hear a new such word in America - obvious such as kale or lettuce or baffling such as geedus - and recently I had the unique experience of collecting terms in London (where I lived for more than a year on sabbatical leave ) before D (or Deciulal) Day and then returning, some tinle later, to see what the new currency had led to in the way of the coining of new terms. Mencken and others list numerous articles on Alnerican slang connected with money in all its aspects, but I have found nothing satisfactory on the lively British language that centers around the hardware described in Sir Charles Oman's classic Ooinage of England! and other reference books. Let me just remind you what British currency used to be (until the recent decimal currency) and then comment on it and the words and wonders that surround it that you mayor may not find in your dictionaries. Bank- notes were in denominations of ten shillings (10/-, half of a pound), one pound (£1), five pounds (£5), and ten pounds (£10). Coins were the half- crown (2/6 or one-eighth of a pound), the florin (2/-, two shillings, one- tenth of a pound), the shilling (1/-, one-twentieth of a pound), the six- pence (6 d., half a shilling), the threepenny piece (3 d., half a sixpence), the penny (1 d., one-twelfth of a shilling), and the halfpenny (~d., "ha' penny," one twenty-fourth of a shilling).
    [Show full text]
  • A Reprint of a Museograph Originally Produced by the Birmingham Museum of Science & Industry
    A Reprint of a Museograph originally produced by the Birmingham Museum of Science & Industry Written by Jim Andrew in the late 1970s and reworked by him in 2008 OLD WEIGHTS AND MEASURES "A pound of iron weighs more than a pound of gold but an ounce of iron weighs less than an ounce of gold." This statement was true before 1879 and is one example of the problems of old weights and measures. The efficiency of early steam engines was expressed as the "duty" which was the weight of water in pounds that the engine could raise one foot by burning one bushel of coal. Were the pounds 'Troy' or 'Avoirdupois'? Troy was usually only used for precious metals but it had been used to weigh bread and some one might therefore use it to weigh water. The foot was virtually standard from 1300 but there were many different bushels available, giving a weight of coal from 79 lbs to 94 lbs. This museograph will give the history of some of the weights and measures to be found or mentioned in the Museum. Tables of measures and conversions between measures will be given as well as some indication of the uses of those measures. Unfortunately it seems that, in the past, people used any convenient weight or measure which was available so that it can be very difficult to be precise about some quantities. LENGTH The foot is probably the longest serving identifiable measure in use today. The Greek foot was standardised at 12.14 of our inches by 440 B.C.
    [Show full text]