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Natural abundance /% 100
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Spin (I) 3/2
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Frequency relative to 1H = 100 (MHz) 14.051813
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Receptivity, DP, relative to 1H
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Receptivity, DP, relative to 1H = 1.00 0.0139
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Receptivity, DC, relative to 13C = 1.00 81.5
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Magnetogyric ratio, γ
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(107 rad T-1 s-1)
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-3.759666 boild BE
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Magnetic moment, μ (μN) -1.520136
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be ber yll i um
be be |
beryllium antidotes
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beryllium powered flight boots
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be pf boots
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beryllium time machine
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be time travel?
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beryllium time moving possibilities
maybe subtle |
go back to the 80s and rape a foxy lady
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Here is some information about the crystal structure of beryllium.
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Space group: P63/mmc (Space group number: 194)
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Structure: hcp (hexagonal close-packed)
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Cell parameters:
a: 228.58 pm b: 228.58 pm |
c: 358.43 pm
α: 90.000° |
c: 358.43 pm
α: 90.000° |
β: 90.000°
γ: 120.000° |
The following uses for beryllium are gathered from a number of sources as well as from anecdotal comments.
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I'd be delighted to receive corrections as well as additional referenced uses (please use the feedback mechanism to add uses).
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Or maybe I'll mail anthrax beryllium to your home
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X-ray windows (berllium transmits X-rays 17 times better than aluminium
as a 2% alloy with nickel for springs, electrodes and nonsparking tools berllium (2%) alloyed with copper gives a hard strong alloy with high resistance to wear used in gyroscopes, computer parts, and instruments (desirable lightness, stiffness) |
The most used definition of electronegativity is that an element's electronegativity is the power of an atom when in a molecule to attract electron density to itself.
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The electronegativity depends upon a number of factors and in particuler as the other atoms in the molecule.
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The first scale of electronegativity was developed by Linus Pauling and on his scale beryllium has a value of 1.57 on a scale running from from about 0.7 (an estimate for francium) to 2.20 (for hydrogen) to 3.98 (fluorine).
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Electronegativity has no units but "Pauling units" are often used when indicating values mapped on to the Pauling scale.
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On the interactive plot below you may find the "Ball chart" and "Shaded table" styles most useful.
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Table of Different types of electronegativity for beryllium. Use the links in the "Electronegativity" column for definitions, literature sources, and visual representations in many different styles (one of which is shown below). All values are quoted on the Pauling scale.
Electronegativity Value in Pauling units Pauling electronegativity 1.57 Sanderson electronegativity 1.81 Allred Rochow electronegativity 1.47 Mulliken-Jaffe electronegativity 1.54 (s orbital) Allen electronegativity 1.576 |
* Beryllium Research Highlights. Centers for Disease Control and Prevention (CDC), National Institute of Occupational Safety and Health (NIOSH).
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Provides information on completed studies, current research findings, and future activities to the participants in NIOSH beryllium research in newsletter format.
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Beryllium - Element Properties and Periodic Table Information
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Beryllium - An element from the Periodic Table based on the IOUPAC 1985 standard
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Chemical Elements
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Periodic Table
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Definition of the Beryllium Element
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A high-melting, lightweight, corrosion-resistant, rigid, steel-gray metallic element used as an aerospace structural material, as a moderator and reflector in nuclear reactors, and in a copper alloy used for springs, electrical contacts, and non-sparking tools.
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Mother****ing beryllium.
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7,084 posts and still not on the first page?
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Yes, Its strange, but may be soon come on the first page.
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Shirly it's beryllium!
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Beryllium.
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The Beryllium thread will not be the same without KurtCobain.
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beryllium is badass
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is the chemical element with the symbol Be and atomic number 4.
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It is a divalent element which only occurs naturally in combination with other elements in minerals.
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Notable gemstones which contain beryllium include beryl (aquamarine, emerald) and chrysoberyl.
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As a free element it is a steel-gray, strong, lightweight and brittle alkaline earth metal.
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Beryllium is primarily used as a hardening agent in alloys, notably beryllium copper. In structural applications, high flexural rigidity, thermal stability,
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thermal conductivity and low density (1.85 times that of water) make beryllium a quality aerospace material for high-speed aircraft, missiles,
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space vehicles and communication satellites.
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Because of its low density and atomic mass, beryllium is relatively transparent to X-rays and other forms of ionizing radiation; therefore,
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it is the most common window material for X-ray equipment and in particle physics experiments.
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The high thermal conductivity of beryllium and beryllium oxide have led to their use in heat transport and heat sinking applications.
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The commercial use of beryllium metal presents technical challenges due to the toxicity (especially by inhalation) of beryllium-containing dusts. Beryllium is corrosive to tissue, and can cause a chronic life-threatening allergic disease called berylliosis in some people. As it is not synthesized in stars, beryllium is a relatively rare element in both the Earth and the universe.
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The element is not known to be necessary or useful for either plant or animal life.
Contents [hide] |
1 Characteristics
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2 Propierities
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1.1 Physical properties
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1.2 Nuclear properties
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1.3 Isotopes and nucleosynthesis
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1.4 Occurrence
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2 Production
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3 Chemical properties
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4 History
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4.1 Etymology
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5 Applications
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5.1 Radiation windows
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5.2 Mechanical applications
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5.3 Mirrors
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5.4 Magnetic applications
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5.5 Nuclear applications
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5.6 Acoustics
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5.7 Electronic
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