Monday, September 30, 2019
Molecular Geometry
Molecular Geometry I ââ¬â Investigation using Models (SL) (DCP Lab) Taksh Shah KIS International School Chemistry (SL) 1 Introduction For this investigation we had use molecular models and make the following structures: Symbol Name of Species Lewis Diagram Model Bond Polar or Angle (à °) Non-Polar BeCl2 Beryllium Chloride Linear 180 Non-Polar C2H2 Acetylene Linear 180 Non- Polar BF3 Boron Tri? uoride Planar Triangle 120 Non- Polar C2H4 Ethylene Planar Triangle 120 Non-Polar Molecular Geometry I- Investigation using Models (SL) Chemistry (SL) Symbol 2 Name of Species Lewis DiagramModel Bond Polar or Angle (à °) Non-Polar CH4 Methane Tetrahederal 109. 5 Non-Polar NH3 Ammonia Trigonal Pyramid 107 Polar H2O Water Bent / VShape 104. 5 Polar SO2 Sulfur Dioxide Bent / VShape 104. 5 Polar 120 Polar or NonPolar Planar C2H2Cl2 Dichloroethene Triangle (Carbon) Tetrahederal (Carbon) C2H6O Ethanol V-Shaped (Oxygen) Molecular Geometry I- Investigation using Models (SL) HCH Bond = 109. 5 COH = 104. 5 Polar Chemistry (SL) 3 Explanation Symbol BeCl2 C2H2 BF3 Structure Itââ¬â¢s Linear because it has 2 Bond Paris and 0 Lone Paris Itââ¬â¢s Linear because it has 2 Areas of negative harge around the Carbons and 0 Lone Paris Itââ¬â¢s a Planar Triangle because it has 3 Bonding Pairs and 0 Lone Pairs Shape Polarity With the angle being 180à ° Non-Polar because it has the Molecular Shape polar bonds and is becomes Linear symmetrical With the angle being 180à ° Non-Polar because it has the Molecular Shape polar bonds and is becomes Linear symmetrical With the angle being 120à ° Non-Polar because it has the Molecular Shape polar bonds and is becomes a Planar Triangle symmetrical Itââ¬â¢s a Planar Triangle because it has 3 Areas of CH4 NH3 H2O SO2 Non-Polar because it has the Molecular Shape olar bonds and is Lone Pairs C2H4 With the angle being 120à ° negative charge around the Carbons Pairs and 0 becomes a Planar Triangle symmetrical With the angle being 109. 5à ° Non-Polar because it has Itââ¬â¢s a Tetrahedral because it has 4 Bonding Paris and 0 Lone Pairs Itââ¬â¢s a Trigonal Pyramid because it has 3 Bonding Paris and 1 Lone Pairs Itââ¬â¢s a Bent/V-Shape because it has 2 Bonding Pairs and 2 Lone Pairs Itââ¬â¢s a Bent/V-Shape because it has 3 Areas of positive charge around Sulphur and 1 Lone Pairs the Molecular Shape polar bonds and is becomes a Tetrahedral symmetrical With the angle being 107à °Polar because it has polar the Molecular Shape bonds and is non- becomes a Trigonal Pyramid symmetrical With the angle being 104. 5à ° Polar because it has polar the Molecular Shape bonds and is non- becomes a Bent/V-Shape symmetrical With the angle being 104. 5à ° Polar because it has polar the Molecular Shape bonds and is non- becomes a Bent/V-Shape symmetrical Polar because it has polar bonds and is nonsymmetrical Itââ¬â¢s a Planar Triangle because it has 3 areas of C2H2Cl2 negative charge around the Carbon atoms and 0 Lone Pair s With the angle being 120à ° the Molecular Shape or becomes a Planar TriangleNon-Polar because it has non-polar bonds and is symmetrical Molecular Geometry I- Investigation using Models (SL) Chemistry (SL) Symbol 4 Structure Shape Polarity With the angle being 109. 5à ° Itââ¬â¢s a Tetrahedral (Carbon) because it has 4 the Molecular Shape Bonding Paris and 0 Lone Pairs becomes a Tetrahedral (Carbon) C2H6O Itââ¬â¢s a Bent/V-Shape (Oxygen) because it has 2 Bonding Pairs and 2 Lone Pairs bonds and is nonWith the angle being 104. 5à ° the Molecular Shape becomes a Bent/V-Shape (Oxygen) Molecular Geometry I- Investigation using Models (SL) Polar because it has polar symmetrical
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