Binary Compounds Quiz

Total Page:16

File Type:pdf, Size:1020Kb

Binary Compounds Quiz Name: _____________________ Period ______________ Counting Atoms Give examples from video: Lithium Oxide Potassium Nitride Solve same problem using crisscross technique Sodium Chloride Aluminum Oxide Binary Ionic Compounds: Worksheet Formula to Name Na2S ______________________________________________________________ Be3P2 ______________________________________________________________ Sr3N2 ______________________________________________________________ KF ______________________________________________________________ Al2S3______________________________________________________________ Name to Formula Sodium Oxide ______________________________________________________________ Beryllium Bromide ______________________________________________________________ Calcium Nitride ______________________________________________________________ Strontium Nitride______________________________________________________________ Lithium Fluoride______________________________________________________________ Sodium Phosphide______________________________________________________________ Binary Ionic Compounds: Worksheet with transition metals Formula to Name Ni2S3 ______________________________________________________________ V3P4 ______________________________________________________________ CoBr2______________________________________________________________ Cu3N2 ______________________________________________________________ Name to Formula Lead (II) Oxide ______________________________________________________________ Manganese (II) Oxide ______________________________________________________________ Tin (II) Chloride ______________________________________________________________ Iron (III) Oxide ______________________________________________________________ Mercury (II) Bromide ______________________________________________________________ Copper (I) Oxide ______________________________________________________________ 4.) Magnesium Bromide ________________ 5.) __________________ 6.) ___________________ 1.) Calcium Oxide _____________________ 2.) Aluminum Chloride __________________ 7.) __________________ 3.) Potassium Sulfide ___________________ 10.) Chromium (II) Nitride ____________ 11.) Ni2S3 __________________________ 1.) Lead (II) Oxide ___________________ 12.) V3P4 __________________________ 2.) Manganese (II) Oxide ______________ 13.) CoBr2__________________________ 3.) Tin (II) Chloride __________________ 14.) Cu3N2 _________________________ 4.) Iron (III) Oxide ___________________ 15.) SnS2 __________________________ 5.) Mercury (II) Bromide ______________ 16.) FeN ___________________________ 6.) Copper (I) Oxide __________________ 17.) Fe2S3__________________________ 7.) Cobalt (III) Chloride ______________ 18.) MnCl4_________________________ 8.) Lead (IV) Oxide __________________ 19.) SnO___________________________ 9.) Chromium (III) Chloride ____________ 20.) Co2S3_________________________ Name: _____________________ Chemistry Period: ______ Mr. Harper Binary Ionic Compounds: Worksheet with transition metals 29.) Chromium (III) Chloride 21.) Lead (II) Oxide ____________ ___________________ 30.) Chromium (II) Nitride ____________ 22.) Manganese (II) Oxide ______________ 31.) Ni2S3 __________________________ 23.) Tin (II) Chloride 32.) V3P4 __________________________ __________________ 33.) CoBr2__________________________ 24.) Iron (III) Oxide ___________________ 34.) Cu3N2 _________________________ 25.) Mercury (II) Bromide 35.) SnS2 __________________________ ______________ 36.) FeN ___________________________ 26.) Copper (I) Oxide __________________ 37.) Fe2S3__________________________ 27.) Cobalt (III) Chloride 38.) MnCl4_________________________ ______________ 39.) SnO___________________________ 28.) Lead (IV) Oxide __________________ 40.) Co2S3_________________________ Name: _____________________ Chemistry Period: ______ Mr. Harper Binary Ionic Compounds: Worksheet #3 1) Lithium Oxide ____________________ 12) VS ____________________________ 2) Nickel (I) Sulfide _________________ 13) PbO2 ___________________________ 3) Potassium Fluoride ________________ 14) PbCl2 __________________________ 4) Calcium Phosphide _______________ 15) MgBr2 _________________________ 5) Chromium (III) Sulfide ____________ 16) SrI2 ___________________________ 6) Aluminum Oxide _________________ 17) Au2S ___________________________ 7) Copper (II) Phosphide _____________ 18) NiBr3 _________________________ 8) Lead (IV) Bromide _______________ 19) BaBr2 _________________________ 9) Zinc Sulfide ____________________ 20) CdS __________________________ 10) Cobalt (II) Chloride ______________ 21) FeCl2 _________________________ 11) Gold Nitride _____________________ 22) Cu2S __________________________ 23) BeO __________________________ 24) VO2___________________________ 25) Ag2O _________________________ 26) Na2S _________________________ 27) LiH __________________________ 28) VN ____________________________ 29) Ba3P2 ________________________ 30) SnCl4 _________________________ Name: _____________________ Chemistry Period: ______ Mr. Harper Binary Ionic Compounds: Worksheet #4 1) Potassium fluoride ____________________ 13) Ag3N _______________________________ 2) Copper (I) oxide _____________________ 14) Pb3P2 _______________________________ 3) Sodium nitride _______________________ 15) AlP _______________________________ 4) Beryllium iodide _____________________ 16) V3N4 ______________________________ 5) Strontium sulfide ____________ _________ 17) Cs2O ________________________________ 6) Barium phosphide _____________________ 18) CdS ________________________________ 7) Aluminum chloride ____________________ 19) Ni2O3 _______________________________ 8) Nickel (III) sulfide ____________________ 20) SnS2 _______________________________ 9) Chromium (III) nitride __________________ 21) AuBr ________________________________ 10) Tin (IV) bromide ______________________ 22) HgCl2 _______________________________ 11) Lead (IV) oxide ________________________ 23) CoF3 _______________________________ 12) Manganese (IV) phosphide _______________ 24) PbI4 _______________________________ Name: _____________________ Chemistry Period: ______ Mr. Harper Complex Ionic Compounds: Worksheet #5 Write the formula. 1) barium sulfate _________________________ 2) lead (II) acetate _________________________ 3) nickel (II) hypochlorite _________________________ 4) tin (IV) chlorate _________________________ 5) manganese (IV) carbonate _________________________ 6) copper (II) nitrite _________________________ 7) iron (III) hydroxide _________________________ 8) hydrogen cyanide _________________________ 9) ammonium chloride _________________________ 10) ammonium nitrate _________________________ Write the name. 11) Mg(ClO4)2 _______________________________________ 12) LiClO2 _______________________________________ 13) CuOH _______________________________________ 14) Cu(ClO3)2 _______________________________________ 15) AgNO3 _______________________________________ 16) Al(ClO)3 _______________________________________ 17) NaCN _______________________________________ 18) (NH4)2C2O4_______________________________________ 19) CuCO3 _______________________________________ 20) Na3PO4 _______________________________________ Name: _____________________ Chemistry Period: ______ Mr. Harper Complex Ionic Compounds: Worksheet #6 Write the formula. 1) sodium hydroxide _________________________ 2) ammonium chromate _________________________ 3) hydrogen iodate _________________________ 4) lead (IV) oxalate _________________________ 5) nickel (II) iodite _________________________ 6) copper (I) sulfate _________________________ 7) cobalt (III) hypochlorite _________________________ 8) lithium arsenate _________________________ 9) dimercury dichromate _________________________ 10) magnesium phosphate _________________________ 11) dimercury bromate _________________________ 12) zinc nitrate _________________________ 13) manganese (IV) carbonate _________________________ 14) potassium dichromate _________________________ 15) iron (III) cyanide _________________________ 16) lithium nitrite _________________________ 17) beryllium bisulfite _________________________ 18) barium hydroxide _________________________ 19) ammonium permanganate _________________________ 20) calcium cyanide _________________________ 21) sodium bicarbonate _________________________ 22) beryllium acetate _________________________ (continued on next page) Worksheet #6 continued Write the name. 23) Zn(ClO2)2 _______________________________________ 24) Mg3(PO4)2 _______________________________________ 25) ZnCr2O7 _______________________________________ 26) CaCO3 _______________________________________ 27) KMnO4 _______________________________________ 28) H2O2 _______________________________________ 29) AgC2H3O2 _______________________________________ 30) Cd(HSO4)2 _______________________________________ 31) CuFO3 _______________________________________ 32) H2SO4 _______________________________________ 33) Cr2(SO3)3 _______________________________________ 34) LiCN _______________________________________ 35) Cu3AsO4 _______________________________________ 36) NH4OH _______________________________________ 37) ZnSO4 _______________________________________ 38) Au2CrO4 _______________________________________ 39) Sr3(PO4)2 _______________________________________ 40) AgMnO4 _______________________________________ 41) Co(HSO4)2 _______________________________________ 42) HC2H3O2 _______________________________________ Name: _____________________
Recommended publications
  • Reactions of Lithium Nitride with Some Unsaturated Organic Compounds. Perry S
    Louisiana State University LSU Digital Commons LSU Historical Dissertations and Theses Graduate School 1963 Reactions of Lithium Nitride With Some Unsaturated Organic Compounds. Perry S. Mason Jr Louisiana State University and Agricultural & Mechanical College Follow this and additional works at: https://digitalcommons.lsu.edu/gradschool_disstheses Recommended Citation Mason, Perry S. Jr, "Reactions of Lithium Nitride With Some Unsaturated Organic Compounds." (1963). LSU Historical Dissertations and Theses. 898. https://digitalcommons.lsu.edu/gradschool_disstheses/898 This Dissertation is brought to you for free and open access by the Graduate School at LSU Digital Commons. It has been accepted for inclusion in LSU Historical Dissertations and Theses by an authorized administrator of LSU Digital Commons. For more information, please contact [email protected]. This dissertation has been 64—5058 microfilmed exactly as received MASON, Jr., Perry S., 1938- REACTIONS OF LITHIUM NITRIDE WITH SOME UNSATURATED ORGANIC COMPOUNDS. Louisiana State University, Ph.D., 1963 Chemistry, organic University Microfilms, Inc., Ann Arbor, Michigan Reproduced with permission of the copyright owner. Further reproduction prohibited without permission. Reproduced with permission of the copyright owner. Further reproduction prohibited without permission. Reproduced with permission of the copyright owner. Further reproduction prohibited without permission. REACTIONS OF LITHIUM NITRIDE WITH SOME UNSATURATED ORGANIC COMPOUNDS A Dissertation Submitted to the Graduate Faculty of the Louisiana State University and Agricultural and Mechanical College in partial fulfillment of the requireiaents for the degree of Doctor of Philosophy in The Department of Chemistry by Perry S. Mason, Jr. B. S., Harding College, 1959 August, 1963 Reproduced with permission of the copyright owner. Further reproduction prohibited without permission.
    [Show full text]
  • UCLA UCLA Electronic Theses and Dissertations
    UCLA UCLA Electronic Theses and Dissertations Title Tetrides and Pnictides for Fast-Ion Conductors, Phosphor-Hosts, Structural Materials and Improved Thermoelectrics Permalink https://escholarship.org/uc/item/9068g8b2 Author Hick, Sandra Marie Publication Date 2013 Supplemental Material https://escholarship.org/uc/item/9068g8b2#supplemental Peer reviewed|Thesis/dissertation eScholarship.org Powered by the California Digital Library University of California UNIVERSITY OF CALIFORNIA Los Angeles Tetrides and Pnictides for Fast-Ion Conductors, Phosphor-Hosts, Structural Materials and Improved Thermoelectrics A dissertation submitted in partial satisfaction of the requirements for the degree Doctor of Philosophy in Chemistry by Sandra Marie Hick 2013 ABSTRACT OF THE DISSERTATION Tetrides and Pnictides for Fast-Ion Conductors, Phosphor-Hosts, Structural Materials and Improved Thermoelectrics by Sandra Marie Hick Doctor of Philosophy in Chemistry University of California, Los Angeles, 2013 Professor Richard B. Kaner, Chair New routes to solid states materials are needed for discovery and the realization of improved reactions. By utilizing reactive approaches such as solid-state metathesis, pyrolysis, and nitride fluxes new routes to hard materials, phosphor hosts, and fast ion conductors were developed. The fast ion conductor lithium silicon nitride, Li2SiN2, was produced in a metathesis reaction between silicon chloride, SiCl4 and lithium nitride, Li3N, initiated in a conventional microwave oven. The Li2SiN2 produced had a conductivity of 2.70 x 10-3 S/cm at 500 °C. Colorless millimeter-sized crystals of Ca16Si17N34 were synthesized at high temperatures from a flux generated in situ from reaction intermediates. The ii compound was found to crystallize in the cubic space group F-43m (a = 14.8882 Å).
    [Show full text]
  • Compound Formula Tin (II) Nitride Silver Oxide Lithium Sulfide Magnesium Sulfide
    Ionic Bonding Drill Write the correct formula for the following compounds Compound Formula tin (II) nitride silver oxide lithium sulfide magnesium sulfide copper (I) nitride AgCl boron iodide potassium fluoride copper (I) chloride is CuCl iron (II) oxide is FeO tin (IV) fluoride is SnF4 nickel (II) fluoride is NiF2 lead (IV) oxide is PbO2 silver chloride is calcium iodide is CaI2 potassium bromide sodium phosphide iron (II) chloride copper (I) bromide lead (II) sulfide lead (IV) nitride beryllium nitride potassium bromide is KBr sodium phosphide is Na3P iron (II) chloride is FeCl2 copper (I) bromide is CuBr lead (II) sulfide is PbS lead (IV) nitride is Pb3N4 beryllium nitride is Be3N2 copper (I) chloride iron (II) oxide tin (IV) fluoride nickel (II) fluoride lead (IV) oxide Ag2O silver chloride calcium iodide Answers copper (I) nitride is Cu3N boron iodide is BI3 potassium fluoride is KF silver oxide is lithium sulfide is Li2S magnesium sulfide is MgS tin (II) nitride is Sn3N2 Ionic Bonding Drill Write the correct formula for the following compounds Compound Formula lithium bromide sodium sulfide lead (II) chloride nickel (II) oxide AlBr3 copper (II) oxide AlI3 iron (II) fluoride tin (II) oxide iron (II) oxide is FeO lead (II) oxide is PbO aluminum bromide is potassium oxide is K2O potassium oxide is K2O aluminum iodide is lead (II) nitride is Pb3N2 tin (IV) sulfide iron (III) sulfide lead (II) nitride copper (II) oxide silver fluoride AgF sodium chloride magnesium bromide tin (IV) sulfide is SnS2 iron (III) sulfide is Fe2S3 lead (II)
    [Show full text]
  • WO 2016/074683 Al 19 May 2016 (19.05.2016) W P O P C T
    (12) INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) (19) World Intellectual Property Organization International Bureau (10) International Publication Number (43) International Publication Date WO 2016/074683 Al 19 May 2016 (19.05.2016) W P O P C T (51) International Patent Classification: (81) Designated States (unless otherwise indicated, for every C12N 15/10 (2006.01) kind of national protection available): AE, AG, AL, AM, AO, AT, AU, AZ, BA, BB, BG, BH, BN, BR, BW, BY, (21) International Application Number: BZ, CA, CH, CL, CN, CO, CR, CU, CZ, DE, DK, DM, PCT/DK20 15/050343 DO, DZ, EC, EE, EG, ES, FI, GB, GD, GE, GH, GM, GT, (22) International Filing Date: HN, HR, HU, ID, IL, IN, IR, IS, JP, KE, KG, KN, KP, KR, 11 November 2015 ( 11. 1 1.2015) KZ, LA, LC, LK, LR, LS, LU, LY, MA, MD, ME, MG, MK, MN, MW, MX, MY, MZ, NA, NG, NI, NO, NZ, OM, (25) Filing Language: English PA, PE, PG, PH, PL, PT, QA, RO, RS, RU, RW, SA, SC, (26) Publication Language: English SD, SE, SG, SK, SL, SM, ST, SV, SY, TH, TJ, TM, TN, TR, TT, TZ, UA, UG, US, UZ, VC, VN, ZA, ZM, ZW. (30) Priority Data: PA 2014 00655 11 November 2014 ( 11. 1 1.2014) DK (84) Designated States (unless otherwise indicated, for every 62/077,933 11 November 2014 ( 11. 11.2014) US kind of regional protection available): ARIPO (BW, GH, 62/202,3 18 7 August 2015 (07.08.2015) US GM, KE, LR, LS, MW, MZ, NA, RW, SD, SL, ST, SZ, TZ, UG, ZM, ZW), Eurasian (AM, AZ, BY, KG, KZ, RU, (71) Applicant: LUNDORF PEDERSEN MATERIALS APS TJ, TM), European (AL, AT, BE, BG, CH, CY, CZ, DE, [DK/DK]; Nordvej 16 B, Himmelev, DK-4000 Roskilde DK, EE, ES, FI, FR, GB, GR, HR, HU, IE, IS, IT, LT, LU, (DK).
    [Show full text]
  • Gases in Metals: Iii. the Determination of Nitrogen in Metals by Fusion in Vacuum
    S563 GASES IN METALS: III. THE DETERMINATION OF NITROGEN IN METALS BY FUSION IN VACUUM By Louis Jordan and James R. Eckman ABSTRACT A method has been developed for the determination of nitrogen in the gases evolved from metals fused in vacuum. As in a previously described method for the determination of oxygen and hydrogen by vacuum fusion, the metal sample is melted in a graphite crucible in a high-frequency vacuum furnace. The nitrogen, together with the other gases evolved except the noble gases, is absorbed in calcium vapor. The calcium nitride thus formed is dissolved in dilute hydrochloric acid with the formation of an ammonium salt, and the resulting ammonia is determined by distillation into a standard acid. The efficiency of the determination of nitrogen by absorption in calcium vapor was determined by tests with known gas mixtures. The complete vacuum-fusion procedure was applied to the analysis of several synthetic nitrides (silicon, aluminum, titanium, zirconium, chromium, vanadium) and a few irons and steels. The results ob- tained were compared with the nitrogen values given by the usual acid-solution method for nitrogen in metals. The fusion method has a precision equal to that of .the solution method and gives higher values for nitrogen than the solution method in the analysis of nitrides of silicon, titanium, and vanadium and in certain iron and steel samples. The fusion method should determine also any "uncombined" nitrogen present in a metal. CONTENTS Page I. Introduction 468 II. Review of methods for determining nitrogen in gas mixtures 470 III. Calcium as an absorbent for nitrogen 471 IV.
    [Show full text]
  • Chemical Names and CAS Numbers Final
    Chemical Abstract Chemical Formula Chemical Name Service (CAS) Number C3H8O 1‐propanol C4H7BrO2 2‐bromobutyric acid 80‐58‐0 GeH3COOH 2‐germaacetic acid C4H10 2‐methylpropane 75‐28‐5 C3H8O 2‐propanol 67‐63‐0 C6H10O3 4‐acetylbutyric acid 448671 C4H7BrO2 4‐bromobutyric acid 2623‐87‐2 CH3CHO acetaldehyde CH3CONH2 acetamide C8H9NO2 acetaminophen 103‐90‐2 − C2H3O2 acetate ion − CH3COO acetate ion C2H4O2 acetic acid 64‐19‐7 CH3COOH acetic acid (CH3)2CO acetone CH3COCl acetyl chloride C2H2 acetylene 74‐86‐2 HCCH acetylene C9H8O4 acetylsalicylic acid 50‐78‐2 H2C(CH)CN acrylonitrile C3H7NO2 Ala C3H7NO2 alanine 56‐41‐7 NaAlSi3O3 albite AlSb aluminium antimonide 25152‐52‐7 AlAs aluminium arsenide 22831‐42‐1 AlBO2 aluminium borate 61279‐70‐7 AlBO aluminium boron oxide 12041‐48‐4 AlBr3 aluminium bromide 7727‐15‐3 AlBr3•6H2O aluminium bromide hexahydrate 2149397 AlCl4Cs aluminium caesium tetrachloride 17992‐03‐9 AlCl3 aluminium chloride (anhydrous) 7446‐70‐0 AlCl3•6H2O aluminium chloride hexahydrate 7784‐13‐6 AlClO aluminium chloride oxide 13596‐11‐7 AlB2 aluminium diboride 12041‐50‐8 AlF2 aluminium difluoride 13569‐23‐8 AlF2O aluminium difluoride oxide 38344‐66‐0 AlB12 aluminium dodecaboride 12041‐54‐2 Al2F6 aluminium fluoride 17949‐86‐9 AlF3 aluminium fluoride 7784‐18‐1 Al(CHO2)3 aluminium formate 7360‐53‐4 1 of 75 Chemical Abstract Chemical Formula Chemical Name Service (CAS) Number Al(OH)3 aluminium hydroxide 21645‐51‐2 Al2I6 aluminium iodide 18898‐35‐6 AlI3 aluminium iodide 7784‐23‐8 AlBr aluminium monobromide 22359‐97‐3 AlCl aluminium monochloride
    [Show full text]
  • Tunable Light-Emission Through the Range 1.8–3.2 Ev and P-Type Conductivity at Room Temperature for Nitride Semiconductors, Ca(Mg1−Xznx)2N2 (X = 0 – 1)”
    Tunable light-emission through the range 1.8–3.2 eV and p-type conductivity at room temperature for nitride semiconductors, Ca(Mg1−xZnx)2N2 (x = 0 – 1) Masatake Tsuji,1 Hidenori Hiramatsu,1,2,a and Hideo Hosono1,2 1: Laboratory for Materials and Structures, Institute of Innovative Research, Tokyo Institute of Technology, Mailbox R3-3, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan 2: Materials Research Center for Element Strategy, Tokyo Institute of Technology, Mailbox SE-1, 4259 Nagatsuta-cho, Midori-ku, Yokohama 226-8503, Japan a) Electronic mail: [email protected] 1 Abstract The ternary nitride CaZn2N2, composed only of earth-abundant elements, is a novel semiconductor with a band gap of ~1.8 eV. First-principles calculations predict that continuous Mg substitution at the Zn site will change the optical band gap in a wide range from ~3.3 eV to ~1.9 eV for Ca(Mg1−xZnx)2N2 (x = 0–1). In this study, we demonstrate that a solid-state reaction at ambient pressure and a high-pressure synthesis at 5 GPa produce x = 0 and 0.12, and 0.12 < x 1 polycrystalline samples, respectively. It is experimentally confirmed that the optical band gap can be continuously tuned from ~3.2 eV to ~1.8 eV, a range very close to that predicted by theory. Band-to-band photoluminescence is observed at room temperature in the ultraviolet–red region depending on x. A 2% Na doping at the Ca site of CaZn2N2 converts its highly resistive state to a p-type conducting state.
    [Show full text]
  • Fabrication of Aluminum Nitride Crucibles for Molten Salt and Plutonium Compatibility Studies
    T-4061 FABRICATION OF ALUMINUM NITRIDE CRUCIBLES FOR MOLTEN SALT AND PLUTONIUM COMPATIBILITY STUDIES by Jeffrey Allen Phillips ProQuest Number: 10783731 All rights reserved INFORMATION TO ALL USERS The quality of this reproduction is dependent upon the quality of the copy submitted. In the unlikely event that the author did not send a com plete manuscript and there are missing pages, these will be noted. Also, if material had to be removed, a note will indicate the deletion. uest ProQuest 10783731 Published by ProQuest LLC(2018). Copyright of the Dissertation is held by the Author. All rights reserved. This work is protected against unauthorized copying under Title 17, United States C ode Microform Edition © ProQuest LLC. ProQuest LLC. 789 East Eisenhower Parkway P.O. Box 1346 Ann Arbor, Ml 48106- 1346 T-4061 A thesis submitted to the Faculty and the Board of Trustees of the Colorado School of Mines in partial fulfillment of the requirements for a degree of Master of Science (Materials Science). Golden, Colorado Signed: Approved: Dr. Gerald L. DePoorter Thesis Advisor Golden, Colorado Date . / Dr. William D. Copeland Professor and Coordinator, Materials Science Department ii T-4061 ABSTRACT Aluminum nitride crucibles have been fabricated utilizing an isostatic pressing technigue and subsequent high temperature sintering. These crucibles were pressed from a commercial spray dried powder using calcium carbonate as a sintering additive. The crucibles were exposed at 850°C to various molten chloride salts (e.g., NaCl, KC1, and CaCl2) and evaluated for salt release and corrosion of the ceramic crucible. Data are presented which show the effects of the salt exposure to the aluminum nitride microstructure.
    [Show full text]
  • Mole Calculation Worksheet – Answer Key
    Name_______________________ Date___________________ Per___________ Mole to Grams, Grams to Moles Conversions Worksheet What are the molecular weights of the following compounds? (all masses must be to nearest hundredth) 1) NaOH 2) H3PO4 3) H2O 4) Mn2Se7 5) MgCl2 6) (NH4)2SO4 There are three definitions (equalities) of mole. They are: 1 mole = 6.02 x 1023 particles 1 mole = molar mass (could be atomic mass from periodic table or molecular mass) 1 mole = 22.4 L of a gas at STP (You do not need to worry about this yet) Each definition can be written as a set of two conversion factors. They are: 1 mole = molar mass(g) can be written as ____1 mole OR _molar mass (g) molar mass (g) 1 mole 1 mole = 6.02 x 1023 particles can be written as ____1 mole OR __6.02 x 1023_ 6.02 x 1023 1 mole Solve the following: 1) How many moles are in 15 grams of lithium? (molar mass of lithium is 6.94 g/mole) 15 grams x 1 mole = 2.1614 moles lithium = 2.2 mol es Li 6.94grams 2) How many grams are in 2.4 moles of sulfur? (molar mass of sulfur is 32.07 g/ mole) 2.4 moles x 32.07 grams = 76.97 grams sulfur = 77 g Sulfur 1 mole 3) How many moles are in 22 grams of argon? 4) How many grams are in 88.1 moles of magnesium? 5) How many moles are in 2.3 grams of phosphorus? 6) How many grams are in 11.9 moles of chromium? 7) How many moles are in 9.8 grams of calcium? 8) How many grams are in 238 moles of arsenic? Solve the following: 9) How many grams are in 4.5 moles of sodium fluoride, NaF? (molar mass of NaF is 22.99 + 19.00 = 41.99 g/ mole) 4.5 moles x 41.99 grams =
    [Show full text]
  • "Sony Mobile Critical Substance List" At
    Sony Mobile Communications Public 1(16) DIRECTIVE Document number Revision 6/034 01-LXE 110 1408 Uen C Prepared by Date SEM/CGQS JOHAN K HOLMQVIST 2014-02-20 Contents responsible if other than preparer Remarks This document is managed in metaDoc. Approved by SEM/CGQS (PER HÖKFELT) Sony Mobile Critical Substances Second Edition Contents 1 Revision history.............................................................................................3 2 Purpose.........................................................................................................3 3 Directive ........................................................................................................4 4 Application ....................................................................................................4 4.1 Terms and Definitions ...................................................................................4 5 Comply to Sony Technical Standard SS-00259............................................6 6 The Sony Mobile list of Critical substances in products................................6 7 The Sony Mobile list of Restricted substances in products...........................7 8 The Sony Mobile list of Monitored substances .............................................8 It is the responsibility of the user to ensure that they have a correct and valid version. Any outdated hard copy is invalid and must be removed from possible use. Public 2(16) DIRECTIVE Document number Revision 6/034 01-LXE 110 1408 Uen C Substance control Sustainability is the backbone
    [Show full text]
  • Printed Copies for Reference Only
    Supplier Environmental Health and Safety Number:CHI-EHS30-000 Revision:A Specification 1 APPROVERS INFORMATION PREPARED BY: Jennilyn Rivera Dinglasan Title: EHS DATE: 5/3/2017 2:35:30 AM APPROVED BY: Jennilyn DATE: 8/10/2017 7:00:05 Rivera Dinglasan Title: EHS PM DATE: 7/21/2017 2:43:17 APPROVED BY: Aline Zeng Title: Purchasing AM APPROVED BY: Bill Hemrich Title: Purchasing DATE: 6/1/2017 3:28:35 PM DATE: 6/11/2017 11:05:48 APPROVED BY: Jade Yuan Title: Purchasing PM APPROVED BY: Matthew DATE: 5/26/2017 6:54:14 Briggs Title: Purchasing AM DATE: 5/26/2017 3:56:07 APPROVED BY: Michael Ji Title: Purchasing AM DATE: 8/31/2017 4:24:35 APPROVED BY: Olga Chen Title: Purchasing AM APPROVED BY: Alfredo DATE: 6/2/2017 11:54:20 Heredia Title: Supplier Quality AM APPROVED BY: Audrius DATE: 5/31/2017 1:20:01 Sutkus Title: Supplier Quality AM DATE: 5/26/2017 2:03:53 APPROVED BY: Sam Peng Title: Supplier Quality AM APPROVED BY: Arsenio DATE: 6/28/2017 2:43:49 Mabao Cesista Jr. Title: EHS Manager AM Printed copies for reference only Printed copies for reference only Supplier Environmental Health and Safety Number:CHI-EHS30-000 Revision:A Specification 1 1.0 Purpose and Scope 1.1 This specification provides general requirements to suppliers regarding Littelfuse Inc’s EHS specification with regards to regulatory compliance, EHS management systems, banned and restricted substances, packaging, and product environmental content reporting. 1.2 This specification applies to all equipment, materials, parts, components, packaging, or products supplied to Littelfuse, Inc.
    [Show full text]
  • Material Safety Data Sheet
    LTS Research Laboratories, Inc. Safety Data Sheet Calcium Nitride ––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––– 1. Product and Company Identification ––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––– Trade Name: Calcium nitride Chemical Formula: Ca3N2 Recommended Use: Scientific research and development Manufacturer/Supplier: LTS Research Laboratories, Inc. Street: 37 Ramland Road City: Orangeburg State: New York Zip Code: 10962 Country: USA Tel #: 855-587-2436 / 855-lts-chem 24-Hour Emergency Contact: 800-424-9300 (US & Canada) +1-703-527-3887 (International) ––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––– 2. Hazards Identification ––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––– Signal Word: Danger Hazard Statements: H228: Flammable solid H314: Causes severe skin burns and eye damage Precautionary Statements: P210: Keep away from heat/sparks/open flames/hot surfaces – No smoking P260: Do not breathe dust/fume/gas/mist/vapours/spray P303+P361+P353: IF ON SKIN (or hair): Remove/Take off immediately all contaminated clothing. Rinse skin with water/shower P305+P351+P338: IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses if present and easy to do – continue rinsing P405: Store locked up P501: Dispose of contents/container in accordance with local/regional/national/international regulations HMIS Health Ratings (0-4): Health: 2
    [Show full text]