Our navigation bar is loading . . .

Subscribe to JCSM's weekly inspirational message podcast!Write on Jason Gastrich's Facebook page!Add JCSM as a friend to your MySpace account!Watch Jason Gastrich's videos on YouTube!
Read, respond and subscribe to Jason Gastrich's blog!

Designate a portion of your next eBay auction to JCSM through eBay's Mission Fish program!JCSM's Top 1000 Christian Sites - Free Traffic Sharing Service!
Jesus Christ Saves Ministries

Helping San Diego, California and beyond since 1997

Please type your email and let us encourage you!

 
        Search jcsm.org now!

Click here and add this page to your favorites!

Return to the JCSM Study Center!

Encyclopedia Britannica



MOLYBDENUM [symbol, Mo; atomic weight, 96 (0=16)]

This article appears in Volume V18, Page 682 of the Encyclopedia Britannica.

Encyclopedia Britannica - Main :: MOL-MOS
MOLYBDENUM [symbol, Mo; atomic weight, 96 (0=16)] a metallic chemical
element
 . The name is derived from Gr. poXui36os, lead, and was originally employed to denote many substances containing or resembling lead; ultimately the term was applied to graphite and to molybdenum sulphide. The difference between these two latter substances was first pointed out by Cronstedt, and in 1778 C. Scheele prepared molybdic acid from the sulphide. Molybdenum occurs in nature chiefly as the minerals molybdenite (MoS2) and wulfenite (PbMoO4), and more rarely as molybdic ochre (MoO3) and ilsemannite; it also occurs in many iron ores. The metal may be obtained by heating the trioxide with carbon in the electric furnace (H. Moissan, Comptes rendus, 1893, 116, p. 1225), or by the Goldschmidt method (Rosenheim and Braun, Zeit. anorg. Chem., 1905, p. 311) or by dissociating the tetra- and pentachloride in a graphite crucible with an electric current below 1330 (J. N. Pring and W. Fielding, Jour. Chem. Soc., 1909, 95, p. 1497). It forms a grey coloured powder of specific gravity 9.oi; it is malleable, and not as hard as glass. It is rapidly oxidized on heating to a temperature of 5oo-600 C., and also when fused with nitre or potassium chlorate. It is soluble in dilute nitric acid, and in concentrated sulphuric acid; in the
latter case with the formation of a blue solution which on heating becomes colourless, molybdenum trioxide being formed with the liberation of
sulphur
  dioxide.
Molybdenum combines with oxygen to form many oxides, the most important of which are : the monoxide, MoO.n (H2O), the sesquioxide, Mo203, the dioxide, MoO2, and the trioxide, MOOS Molybdenum monoxide, MoO.n(H2O), is a black powder obtained when the dichloride is boiled with concentrated potash solution. According to W. Muthmann and W. Nagel (Ber., 1898, 31, p. 2009), this
oxide
  does not exist, the reaction leading to the formation of an hydroxide according to the equation: Mo3C14(OH)s + 4KHO + 3H2O = 3Mo(OH)3+4KBr{-3H. Molybdenum sesquioxide, Mo203i a black mass insoluble in acids, is formed by heating the corresponding hydroxide in vacuo, or by digesting the trioxide with zinc and hydrochloric acid. Molybdenum dioxide, MoO2, is formed by heating sodium trimolybdate, Na2Mo3Ols, to redness in a current of hydrogen (L. Svanberg and H. Struve, Jour. prak. Chem., 1848, 44, p. 301), or by long fusion of a mixture of ammonium molybdate, potassium carbonate, and
boron
  trioxide (W. Muthmann, Ann., 1887, 238, p. 114). It forms quadratic prisms, having a violet reflex and insoluble in boiling hydrochloric acid. Molybdenum trioxide, MoO3, is prepared by oxidizing the metal or the sulphide by heating them in air, or with nitric acid. It, is a white powder, which turns pale yellow on heating, and melts at a red heat. It sublimes in small rhombic tables or needles, and is slightly soluble in cold water, the solution possessing an acid reaction. Several hydrated forms of the
oxide
  are known, and a colloidal variety may be obtained by the
dialysis
  of a strong hydrochloric acid solution of sodium molybdate. Molybdenum trioxide, like chromium trioxide, is an acidic oxide, and forms salts known as molybdates. The normal molybdates show a tendency to pass into polymolybdates. The molybdates are also capable of combining with other oxides (such as phosphorus and arsenic pentoxides) yielding very complex salts. The
ordinary
  ammonium molybdate, used as a test reagent for phosphates, is a salt of composition (NH4)10MO12041; it has been examined physicochemically by J. Sand and F. Eisenlohr (Abst. J.C.S., 1907, 1i. pp. 178, 179). The molybdates may be recognized by the fact that they give a white precipitate on the addition of hydrochloric or nitric acids to their solutions, and that with reducing agents (zinc and sulphuric acid) they give generally a blue coloration which turns to a green and finally to a brown colour.
. Molybdenum combines with the halogen elements in varying pro-portions, forming with chlorine a di-, tr1-, tetra- and penta-chloride, and similar compounds with bromine and iodine. Molybdenum dichloride (MoC12)3 or C14Mo3C12 (chlormolybdenum chloride), is prepared (together with some tetrachloride) by heating the trichlonde in a stream of carbon dioxide (C. W. Blomstrand, Jour. f. prak.Chem.,1857, 71, p. 449 ; 1861, 82, p. 433). It is a yellow amorphous powder which is soluble in dilute alkalis, the solution on acidification giving an hydroxide, C14Mo3(OH)2, which is soluble in nitric acid, and does not give a reaction with silver nitrate. The molecular weight determinations of W. Muthmann and W. Nagel (Ber., 1898, 31, p. 2009) show the salt to possess the composition Mo3C16. Molybdenum trichioride, MoC13, is obtained when the pentachloride is heated to a temperature of about 250 C. in a current of hydrogen. It forms red crusts, is insoluble in cold water, but is decomposed by boiling water. It is easily soluble in hot nitric acid. Molybdenum pentachloride, MoCl5,. is obtained when molybdenum is gently heated in dry chlorine (L. P. Liechti and B. Kempe, Ann., 1873, 169, p. 345). It is a dark-coloured crystalline solid which melts at 194 C. and boils at 268 C. It fumes in moist air and deliquesces gradually. It is occasionally used as a chlorine
carrier
 . It is soluble in absolute alcohol and in ether. Molybdenum disulphide, MoS2, is found as the
mineral
  molybdenite, and may be prepared by heating the trioxide with
sulphur
  or sulphuretted hydrogen. It is a black crystalline powder, resembling graphite in appearance. It is readily oxidized by nitric acid, and when strohgly heated in a current of hydrogen is reduced to the metallic condition. Molybdenum trisulphide, MoS,, is obtained by saturating a solution of an alkaline molybdate with sulphuretted hydrogen and adding a
mineral
  acid. It is a brown powder which on heating in air loses sulphur and leaves a residue of the disulphide. A tetrasulphide, MoS4, has also been described.
Many varying values have been given for the atomic weight of molybdenum. J. J.
Berzelius
  (Pogg. Ann., 1826, 8, p. 23), by converting lead molybdate into lead nitrate, obtained the value 95.2 ;while
J. B. A. Dumas (Ann., 186o, 113, p. 32), by converting the trioxide Into the metal, obtained the value 95.65. K. Seubert and W. Pollard (Zeit. anorg. Chem., 1895, 8, p. 434) using this u cond method obtained the value 96.28; whilst E. F.
Smith
  and P. Maas (Zeit. anorg. Chem., 1894, 5, p. 280), by heating pure sodium molybdate in hydrochloric acid and estimating the amount of sodium chloride formed, obtained the value 96.087.


End of Article: MOLYBDENUM [symbol, Mo; atomic weight, 96 (0=16)]


If you wish, you can link directly to this article.
<a href="http://jcsm.org/StudyCenter/Encyclopedia/MOL_MOS/MOLYBDENUM_symbol_Mo_atomic_we.html">
MOLYBDENUM [symbol, Mo; atomic weight, 96 (0=16)]
</a>
(Previous)
MOLYBDENITE 		(Next)
MOLYNEUX

 


 

Jesus Christ Saves Ministries

The JCSM Study CenterAmerica's Christian FoundationSkeptic's Annotated Bible: Corrected and ExplainedNKJV Web Hosting and Services
JCSM's Sermons, Debates and the Bible on MP3The Online Christ-Centered MinistriesDo You Have A Web Site?  Your Ad Could Be Here!Seminary Notes and PapersThe Picturesque Photo Albums


Jesus Christ Saves Ministries, P.O. Box 70696, Pasadena, CA 91117

JCSM is a 501(c)(3), non-profit organization. Copyright © 1997-present.



Kingdom Debt Solutions - Be Debt Free! Sport Logos - Quality Athletic Equipment The JCSM Study Center Your Ad Could Be Here! Launch A Successful Internet Organization or Business! Learn Guitar, Bass, or Piano in San Diego county!

You can advertise your site right here!

Free & Cheap Cell Phones  |  Cheap Long Distance Phone Service Carriers  |  Talk America Local Phone Service  |  Ztel & MCI - Unlimited Long Distance
Compare Cell Phone Plans & Companies  |  International Calling Cards & Prepaid Phone Cards  |  Voice Over IP Broadband Internet Phone Service  |  Wireless Phone Plans & Cheap Cell Phones

Dr. Jason Gastrich

Jason Gastrich, Ph.D.

 

Jesus Christ Saves Ministries is directed by Dr. Jason Gastrich. It was founded in 1997 and it exists to bring people into a life-changing and productive relationship with Jesus Christ. JCSM offers over 200,000 free web pages, including its weekly inspirational emails that have been sent continuously for over a decade.

Jesus Christ Saves Ministries
P.O. Box 9297
San Diego, CA  92169
1-877-850-3878 or Email

JCSM is a 501(c)(3), non-profit organization. Copyright © 1997-2009.

_____________________________________________________________________________

Online First Aid and CPR Certification  .  The Online Christ Centered Ministries  .  The Skeptic's Annotated Bible: Corrected and Explained  .  The Inerrancy Discussion Board  .  Free Email Accounts  .  Home Equity Loans  .  JasonGastrich.com  .  The Missions, Apologetics, and Creation Bible Conference  .  Young Earth Creation Science  .  San Diego Music Lessons  .  10,000 Wise Quotes and Spiritual Sayings  .  Gastrich.net  .  Maximizing the Internet: 12 Keys to Success  .  Louisiana Baptist University  .  NKJV Web Hosting and Services  .  Michael Newdow  .  San Diego Soccer Training  . Christian Guitar Lessons  .  Jesus Christ Saves Ministries  .  Eternal Security