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Created by: Kate Birch, Anna Fiedor, Hailey Trainor, & Miranda Zarlino COMPOUNDS FLOW CHART.

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Presentation on theme: "Created by: Kate Birch, Anna Fiedor, Hailey Trainor, & Miranda Zarlino COMPOUNDS FLOW CHART."— Presentation transcript:

1 Created by: Kate Birch, Anna Fiedor, Hailey Trainor, & Miranda Zarlino COMPOUNDS FLOW CHART

2 Is it a compound? FIRST OF ALL… YESNO

3 INVALID CHOICE You have to go back lol

4 Metals and Nonmetals and/or Polyatomic Ions? 2 or more nonmetals? DOES IT HAVE… Polyatomic Ion Sheet Periodic Table Then its IONIC! Then its COVALENT!

5 IS IT… Has 2 elements Has a water molecule IONIC Polyatomic? Hydrated Crystal? Binary? Polyatomic Ion Sheet Back to Main

6 CATION (Positively Charged Polyatomic Ion) Naming Rules:  Polyatomic ion comes first  Negatively charged element follows ANION (Negatively Charged Polyatomic Ion) Naming Rules:  Positively charged element comes first  Polyatomic ion follows POLYATOMIC FINAL RESULT! Back to Ionic

7 Element/Polyatomic Ion with H 2 O molecule H 2 O molecule with a prefix  If there is a number in front of your water molecule, see Prefix Chart HYDRATED CRYSTAL FINAL RESULT! Prefix Chart Back to Ionic

8 First Element Name  Simply name the element used first! Second Element Name  Chop off the ending and add –ide! BINARY FINAL RESULT! Criss Cross Method Naming Rules Back to Ionic

9 The compound needs to be stable! When you put the ions together, the overall charge still needs to equal zero. You write the cation (positve ion) first, including its charge. Next, you write the anion (negative ion) including its charge. You “criss cross” the charges to form subscripts on the opposite ions! CRISS CROSS METHOD GO BACK

10 You need to write the cation first (Refer to Periodic Table for its name). If the cation is a metal that contains multiple charges, you have to specify the charge. You do this by writing the number as a Roman Numeral in parenthesis after the cation. Next, write the anion (Refer to Periodic Table for its name). Drop the ending, and add the sufix –ide. If there is a polyatomic ion present, refer to polyatomic ion sheet for its name. NAMING RULES FOR IONIC BONDS Periodic Table

11 First Element Name  See naming rules  Use appropriate element name and prefix. Second Element Name  See naming rules  Use appropriate element name and prefix.  Don’t forget- chop off ending and add –ide! COVALENT Naming Rules Final Results! Back to Main

12 First, the cation (positive ion) should be named. Do not cut off any parts of the element’s name.  If there is a subscript of 2 or more, see Prefix Chart Next, the anion (negative ion) should be named.  If the element begins with a vowel, the (a) and (o) are dropped from the end of the prefix  If there is a subscript of 2 or more, see Prefix Chart NAMING RULES FOR COVALENT BONDS Prefix Chart

13 Place prefix in front of the hydrate (water molecule) PREFIX CHART GO BACK

14 For the cation, just place the appropriate prefix (DO NOT use mono- even if there is a subscript of 1) For the anion, place the appropriate prefix in front of the element name. PREFIX CHART GO BACK

15 Any element to the left of the stepline (including those immediately along it) are METALS Any element to the right of stepline (not immediately on it) are NONMETALS METAL OR NONMETAL? GO BACK

16  Li 3 PO 4 lithium phosphate  KMnO 4 potassium permanganate  Mg(OH) 2 magnesium hydroxide  Al(HC 2 H 3 O 2 ) 3 aluminum acetate  Ba(NO 3 ) 2 barium nitrate  Cs(NO 2 ) cesium nitrite  Na 3 [Fe(CN) 6 ] sodium ferricyanide  Na 2 SO 4 sodium sulfate  NH 4 Cl ammonium chloride  Na 3 PO 4 sodium phosphate  Ca[Fe(CN) 4 ] calcium iron (II) cyanide  NH 4 C 2 H 3 O 2 ammonium acetate  Fe 3 (PO 4 ) iron phosphate  Ni(OH) 3 nickel hydroxide  NaNO 3 sodium nitrate  Cu 2 SO 4 copper (II) sulfate  FeSO 4 iron (II) sulfate  Al(NO 2 ) 3 aluminum nitrite  KSCN potassium thiocyanate POLYATOMIC FINAL RESULTS! Back to Main DON’T SEE YOUR ELEMENT?

17  Na 2 S 2 O 3 5 H 2 O sodium thiosulfate pentahydrate  CoCl 2 2 H 2 O cobalt (II) chloride dihydrate  MgSO 4 7 H 2 O magnesium sulfate heptahydrate  CoCl 2 6 H 2 O cobalt (II) chloride hexahydrate HYDRATED CRYSTALS FINAL RESULTS! Back to Main DON’T SEE YOUR ELEMENT?

18  FeS iron (II) sulfide aka ferrous sulfide  Fe 2 S 3 iron (III) sulfide aka ferric sulfide  SF 6 sulfur hexafluoride  SnO tin (II) oxide  SnO 2 tin (IV) oxide  KI potassium iodide  Ca 3 N 2 calcium nitride  Cu 2 S copper (I) sulfide  TiO 2 titanium (IV) oxide aka titanium dioxide  MnO 2 manganese (II) oxide  MgH 2 magnesium hydride  PbS lead (II) sulfide  PbO 2 lead oxide  Li 3 N lithium nitride  Ca 3 P 2 calcium phosphide  ZnO zinc oxide  MgS magnesium sulfide  AgCl silver chloride  SiBr 4 silicon bromide  BF 3 boron fluoride BINARY FINAL RESULTS! Back to Main DON’T SEE YOUR ELEMENT?

19  P 4 O 10 tetraphosphorus decoxide  NH 3 nitrogen trihydride aka ammonia  N 2 O dinitrogen monoxide aka nitrous oxide  H 2 O dihydrogen monoxide aka water  NO nitrogen monoxide aka nitric oxide  PBr 5 phosphorus pentabromide  SiO 2 silicon dioxide  N 2 O 4 dinitrogen tetroxide  SCl 6 sulfer hexachloride  CCl 4 carbon tetrachloride  H 2 S dihydrogen monosulfide  XeF 4 xenon tetrafluoride  NO 2 nitrogen dioxide COVALENT FINAL RESULTS! Back to Main DON’T SEE YOUR ELEMENT?

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