Periodic Properties: Groups 5A, 6A, and 7A Group 5A Elements and SymbolsElement TypeState
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Periodic Properties: Groups 5A, 6A, and 7A A. Group 5A 1. Elements and Symbols Element Type State a. N = Nitrogen Non-metal diatomic gas b. P = Phosphorous Non-metal solid c. As = Arsenic Metalloid solid d. Sb = Antimony Metalloid solid e. Bi = Bismuth Metal solid 2. Some chemistry of the non-metal Group 5A Elements a. The elements tend to react to gain 3 electrons to be like noble gas b. These elements react with oxygen to form acidic compounds - HNO 3 = Nitric Acid H 3 PO 4 = Phosphoric Acid - P 4 (s) + 5 O 2 (g) -----> P 4 O 10 (s) - P 4 O 10 (s) + 6 H 2 O -----> 4 H 3 PO 4 (aq) c. Important Biological Elements - N is a component of every amino acid (protein) and DNA - P is a component of DNA
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Periodic Properties: Groups 5A, 6A, and 7A Group 5A Elements and SymbolsElement TypeState N = NitrogenNon-metaldiatomicgas P = PhosphorousNon-metalsolid As = Arsenic Metalloidsolid Sb = AntimonyMetalloidsolid Bi = BismuthMetalsolid - PowerPoint PPT Presentation
Transcript of Periodic Properties: Groups 5A, 6A, and 7A Group 5A Elements and SymbolsElement TypeState
Periodic Properties: Groups 5A, 6A, and 7AA. Group 5A
1. Elements and Symbols Element Type Statea. N = Nitrogen Non-metal diatomicgasb. P = Phosphorous Non-metal solidc. As = Arsenic Metalloid solidd. Sb = Antimony Metalloid solide. Bi = Bismuth Metal solid
2. Some chemistry of the non-metal Group 5A Elementsa. The elements tend to react to gain 3 electrons to be like noble gasb. These elements react with oxygen to form acidic compounds
- HNO3 = Nitric Acid H3PO4 = Phosphoric Acid
- P4(s) + 5 O2(g) -----> P4O10(s)
- P4O10(s) + 6 H2O -----> 4 H3PO4(aq)
c. Important Biological Elements- N is a component of every amino acid (protein) and DNA- P is a component of DNA
d. Phosphorous has more than one allotrope- Allotrope = stable solid phase- P4(s) is called “white phosphorous” is tetrahedral, and burns in air
- Pred is called “red phosphorous” and is made of chains of P4 tetrahedra
- Pblack is called “black phosphorous” and is a crystalline solid
e. We will be reacting Red Phosphorous with Oxygen today in lab- Don’t bother with the bottle- Burn the phosphorous in the bunsen burner in the hood- Have a distilled water dampened piece of pH paper ready- Put the pH paper (green when damp) in the phosphorous smoke- If it turns red, that indicates the formation of acid- DON’T PUT HOT COMBUSTION SPOON INTO BOTTLE!!!
B. Group 6A1. Elements and Symbols Element Type State
a. O = Oxygen Non-metal diatomicgasb. S = Sulfur Non-metal solidc. Se = Selenium Non-metal solidd. Te = Tellurium Metalloid solide. Po = Polonium Metalloid solid
2. Some chemistry of the non-metal Group 5A Elementsa. The elements tend to react to gain 2 electrons to be like noble gasb. 20% of the atmosphere and 50% of the crust is O (by mass)c. These elements react with oxygen to form acidic compoundsd. Sulfuric Acid (H2SO4) is the largest volume chemical used in industry
- S(s) + O2(g) -----> SO2(g)
- SO2(g) + H2O(l) -----> H2SO3(aq) = sulfurous acid
e. We will be burning S(s) in the hood to produce H2SO3 - Use same procedure as for phosphorous- All waste P and S should be completely burned off of the spoon
f. Sulfur has more than one Allotrope- Two allotropes of solid sulfur have 8-membered rings, but
different crystal forms: “monoclinic” and “rhombic”- If liquid sulfur is cooled quickly, it solidifies as chains of sulfur
atoms called “plastic sulfur”
monoclinic rhombic plastic
C. Group 7A = Halogens (kJ/mol)1. Elements Element Type State
E.A.a. F = Fluorine Non-metal diatomicgas, yellow -328b. Cl = Chlorine Non-metal diatomicgas, yellow -349c. Br = Bromine Non-metal diatomic liquid, brown -325d. I = Iodine Non-metal diatomic solid, purple -295e. At = Astatine Non-metal radioactive solid
2. The chemistry of these elements is dominated by their need to add one e-
2 Na(s) + Cl2(g) -----> 2 NaCl(s) + large amount of heat
Sodium Reacts Violently with Chlorine
3. Electron Affinity = energy given off when a gaseous element gains an e- a. X(g) + e- -----> X-(g)b. Exothermic process because all elements accept e- due to + nucleusc. Adding e- is less favored down a group due to distance from nucleusd. Fluorine is so small, that repulsion from other electrons lowers its
E.A.
4. Halogens with more favorable E.A. can take electrons from other halidesa. Cl2 + 2 Br- -----> 2 Cl- + Br2
b. E.A: -349 -325c. Cl2 is reduced; Br- is oxidized
5. We will be studying this kind of reaction today in laba. Prepare control samples:
- I2/H2O + toluene = purple color of I2 in toluene
- Br2/H2O + toluene = orange color of Br2 in toluene
- Cl2/H2O + toluene = yellow color of Cl2 in tolueneCl2
Br2
I2
b. Run all possible combinations of reactions between Cl/Br/I and observe the color of the toluene when finishedCl2 + Br- -----> yellow (Cl2) if no reaction; orange (Br2) if reaction
Cl2 + I- ----->
Br2 + Cl- ----->
Br2 + I- -----> orange (Br2) if no reaction; purple (I2) if reaction
I2 + Cl- ----->
I2 + Br- ----->
c. Use parafilm to cover test tubes to shake them upd. All halogen reactions go into a waste beaker in the hood
Incident: HF and Trifluoroacetic Acid Burn
Incident: HF Exposure
