1 / 60

Compounds & Molecules

NaCl, salt. Compounds & Molecules. Ethanol, C 2 H 6 O. Buckyball, C 60. Compounds & Molecules. COMPOUNDS are a combination of 2 or more elements in definite ratios by mass. The character of each element is lost when forming a compound.

Download Presentation

Compounds & Molecules

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. NaCl, salt Compounds & Molecules Ethanol, C2H6O Buckyball, C60

  2. Compounds & Molecules • COMPOUNDSare a combination of 2 or more elements in definite ratios by mass. • The character of each element is lost when forming a compound. • MOLECULESare the smallest unit of a compound that retains the characteristics of the compound.

  3. MOLECULAR FORMULAS • Formula for glycine is C2H5NO2 • In one molecule there are • 2 C atoms • 5 H atoms • 1 N atom • 2 O atoms

  4. WRITING FORMULAS • Can also write glycine formula as • H2NCH2COOH to show atom ordering • or in the form of a structural formula

  5. MOLECULAR MODELING Drawing of glycine Ball & stick Space-filling

  6. Resources for Molecular Modeling • Modeling software on the General Chemistry Interactive CD-ROM • CAChe — see the folder labeled CAChe on the CD-ROM • Rasmol

  7. MOLECULAR WEIGHT AND MOLAR MASS Molecular weight = sum of the atomic weights of all atoms in the molecule. Molar mass = molecular weight in grams

  8. What is the molar mass of ethanol, C2H6O? 1 mol contains 2 mol C (12.01 g C/1 mol) = 24.02 g C 6 mol H (1.01 g H/1 mol) = 6.06 g H 1 mol O (16.00 g O/1 mol) = 16.00 g O TOTAL = molar mass = 46.08 g/mol

  9. Tylenol • Formula = • Molar mass = C8H9NO2 151.2 g/mol

  10. Molar Mass

  11. How many moles of alcohol are there in a “standard” can of beer if there are 21.3 g of C2H6O? (a) Molar mass of C2H6O = 46.08 g/mol (b) Calc. moles of alcohol

  12. How many moleculesof alcohol are there in a “standard” can of beer if there are 21.3 g of C2H6O? = 2.78 x 1023 molecules We know there are 0.462 mol of C2H6O.

  13. How many atoms of Care there in a “standard” can of beer if there are 21.3 g of C2H6O? = 5.57 x 1023 C atoms There are 2.78 x 1023 molecules. Each molecule contains 2 C atoms. Therefore, the number of C atoms is

  14. Molecular & Ionic Compounds NaCl Heme

  15. ELEMENTS THAT EXIST AS MOLECULES See SCREEN 3.2 on the CD-ROM Allotropes of C

  16. Screen 3.2

  17. ELEMENTS THAT EXIST AS DIATOMIC MOLECULES

  18. ELEMENTS THAT EXIST AS POLYATOMIC MOLECULES S8 sulfur molecules White P4 and polymeric red phosphorus

  19. IONS AND IONIC COMPOUNDSsee Screen 3.5 • IONSare atoms or groups of atoms with a positive or negative charge. • Taking away an electron from an atom gives a CATION with a positive charge • Adding an electron to an atom gives an ANION with a negative charge.

  20. Forming Cations & Anions A CATION forms when an atom loses one or more electrons. An ANION forms when an atom gains one or more electrons F + e- --> F- Mg --> Mg2+ + 2 e-

  21. PREDICTING ION CHARGES • See CD-ROM Screen 3.5 and book Figure 3.7 In general • metals (Mg) lose electrons ---> cations • nonmetals (F) gain electrons ---> anions

  22. -4 -3 -2 -1 +1 +2 Charges on Common Ions +3 By losing or gaining e-, atom has same number of e-’s as nearest Group 8A atom.

  23. Predicting Charges on Monatomic Ions

  24. METALS M ---> n e- + Mn+ where n = periodic group Na+ sodium ion Mg2+ magnesium ion Al3+ aluminum ion Transition metals --> M2+ or M3+ are common Fe2+ iron(II) ion Fe3+ iron(III) ion

  25. Group 5A Group 6A Group 7A Group 4A C4-,carbide NONMETALS NONMETAL + n e- ------> Xn- where n = 8 - Group no. N3-, nitride O2-, oxide F-, fluoride S2-, sulfide Cl-, chloride Br-, bromide I-, iodide

  26. Ion Formation Reaction of aluminum and bromine

  27. POLYATOMIC IONSCD Screen 3.6 Groups of atoms with a charge. MEMORIZEthe names and formulas in Table 3.1, page 89.

  28. Polyatomic Ions NO3- nitrate ion HNO3 nitric acid

  29. Polyatomic Ions NH4+ ammonium ion One of the few common polyatomic cations

  30. Polyatomic Ions CO32- carbonate ion HCO3- bicarbonate ion hydrogen carbonate

  31. Polyatomic Ions PO43- phosphate ion CH3CO2- acetate ion

  32. Polyatomic Ions SO42- sulfate ion SO32- sulfite ion

  33. Polyatomic Ions NO3- nitrate ion NO2- nitrite ion

  34. COMPOUNDS FORMED FROM IONS CATION + ANION ---> COMPOUND Na+ + Cl- --> NaCl A neutral compd. requires equal number of + and - charges.

  35. NH4+ Cl- IONIC COMPOUNDS ammonium chloride, NH4Cl

  36. Some Ionic Compounds Ca2+ + 2 F- ---> CaF2 Mg2+ + NO3- ----> Mg(NO3)2 magnesiumnitrate Fe2+ + PO43- ----> Fe3(PO4)2 iron(II) phosphate (See CD, Screen 3.11 for naming practice) calcium fluoride

  37. Properties of Ionic CompoundsForming NaCl from Na and Cl2 • A metal atom can transfer an electron to a nonmetal. • The resulting cation and anion are attracted to each other by electrostatic forces.

  38. Electrostatic Forces The oppositely charged ions in ionic compounds are attracted to one another by ELECTROSTATIC FORCES. These forces are governed by COULOMB’S LAW.

  39. Electrostatic Forces COULOMB’S LAW As ion charge increases, the attractive force _______________. As the distance between ions increases, the attractive force ________________. This idea is important and will come up many times in future discussions!

  40. Importance of Coulomb’s Law NaCl, Na+ and Cl-, m.p. 804 oC MgO, Mg2+ and O2- m.p. 2800 oC

  41. Molecular CompoundsCompounds without Ions CO2 Carbon dioxide BCl3 boron trichloride CH4 methane

  42. Naming Molecular Compounds All are formed from two or more nonmetals. CO2 Carbon dioxide Ionic compounds generally involve a metal and nonmetal (NaCl) BCl3boron trichloride CH4 methane

  43. Empirical & Molecular Formulas A pure compound always consists of the same elements combined in the same proportions by weight. Therefore, we can express molecular composition as PERCENT BY WEIGHT Ethanol, C2H6O 52.13% C 13.15% H 34.72% O

  44. Structure of NO2 Percent Composition Consider some of the family of nitrogen-oxygen compounds: NO2, nitrogen dioxide and closely related, NO, nitrogen monoxide (or nitric oxide) Chemistry of NO, nitrogen monoxide

  45. Percent Composition Consider NO2, Molar mass = ? What is the weight percent of N and of O? What are the weight percentages of N and O in NO?

  46. How to Determine a Formula? Mass spectrometer

  47. Mass Spectrum of Ethanol Mass Spectrum of Ethanol (from the NIST site) CH2O+ 31 CH3CH2O+ 45 CH3CH2OH+ 46

  48. Determining Formulas In chemical analysis we determine the % by weight of each element in a given amount of pure compound and derive the EMPIRICALor SIMPLESTformula. PROBLEM: A compound of B and H is 81.10% B. What is its empirical formula?

More Related