Structure & Bonding (Double) quiz Loading... 1. What is needed to complete this diagram to show the ionic bonding in potassium oxide, K₂O ?1) eight electrons around the oxide (six dots and two cross) 2) A charge of +2 on the potassium and -1 on the oxide 3) A second potassium ion the same as the first1) eight electrons around the oxide (six dots and two cross) 2) A charge of +1 on the potassium and -2 on the oxide 3) A second oxide ion the same as the first1) eight electrons around the oxide (six dots and two cross) 2) A charge of +1 on the potassium and -2 on the oxide 3) A second potassium ion the same as the first1) eight electrons around the potassium (any combination of dots and one crosses) 2) A charge of +2 on the oxide and -1 on the potassium 3) A second potassium ion the same as the firstQuestion 1 of 12 Loading... 2. Why is the melting point of a smaller molecule lower than that of a larger molecule?Larger molecules have more attractions between them. These take less energy to overcome.Larger molecules have fewer attractions between them. These take more energy to overcome.Larger molecules have more attractions between them. These take more energy to overcome.Larger molecules have fewer attractions between them. These take less energy to overcome.Question 2 of 12 Loading... 3. Explain why Silica, SiO₂ is a solid with a high melting pointSilica has a giant metallic structure with weak forces of attraction between layersSilica has a simple molecular structure with weak intermolecular forces that require little energy to overcomeSilica has a simple molecular structure with strong intermolecular forces that require a lot of energy to overcomeSilica has a giant covalent structure with many strong covalent bonds that need a lot of energy to breakQuestion 3 of 12 Loading... 4. In the dot and cross diagram of the outer electrons showing the covalent bonding in a molecule of methane (CH₄), how many electrons should be shown in areas 1, 2, 3, and 4?There should be two electrons in each of the areas 1, 2, 3 and 4, and an additional 6 electrons around the outside of each hydrogen atomThere should be one electron in each of the areas 1, 2, 3 and 4There should be four electrons in each of the areas 1, 2, 3 and 4There should be two electrons in each of the areas 1, 2, 3 and 4Question 4 of 12 Loading... 5. Explain, in terms of structure and bonding, why sodium chloride has a very high melting pointNaCl has a simple molecular structure with strong electrostatic forces between oppositely charged ions that require a lot of energy to breakNaCl has a simple molecular structure with weak intermolecular forces that require little energy to breakNaCl has a giant ionic structure with weak electrostatic forces between oppositely charged ions that require little energy to breakNaCl has a giant ionic structure with strong electrostatic forces between oppositely charged ions that require a lot of energy to breakQuestion 5 of 12 Loading... 6. Describe the formation of a covalent bondThe electrostatic attraction between positive metal ions and a sea of delocalised electronsThe sharing of a single electron between two nucleiThe transfer of electrons from one atom to anotherThe sharing of a pair of electrons between two nucleiQuestion 6 of 12 Loading... 7. Explain why methane gas, CH₄, is a gas at room temperatureMethane has a giant covalent structure with many weak covalent bonds which require little energy to overcomeMethane has a giant covalent structure with many strong covalent bonds which require a lot of energy to overcomeMethane has a simple molecular structure with strong intermolecular forces that require a lot of energy to overcomeMethane has a simple molecular structure with weak intermolecular forces that require little energy to overcomeQuestion 7 of 12 Loading... 8. A substance is found not to conduct electricity even when molten. What type of bonding does the substance have?MetallicCovalent or ionicCovalentIonicQuestion 8 of 12 Loading... 9. Explain, in terms of its structure, why graphite can act as a lubricant.Graphite is a smooth metal so creates a surface with little frictionGraphite has strong forces of attraction between layers. These layers can slide over each otherGraphite has a low melting point so becomes liquid when heated by frictionGraphite has weak forces of attraction between layers. These layers can slide over each otherQuestion 9 of 12 Loading... 10. When can ionic substances conduct electricity?In any stateNeverWhen molten or dissolvedOnly when moltenQuestion 10 of 12 Loading... 11. Explain the term ionic bondAn ionic bond is the strong electrostatic attraction between similarly charged ionsAn ionic bond is the strong electrostatic attraction between a shared pair of electrons and two nucleiAn ionic bond is the strong magnetic attraction between oppositely charged ionsAn ionic bond is the strong electrostatic attraction between oppositely charged ionsQuestion 11 of 12 Loading... 12. Give the definition of a covalent bondStrong electrostatic attraction between oppositely charged ionsStrong electrostatic attraction between a postive ion and a sea of delocalised positive ionsStrong electrostatic attraction between a shared pair of electrons and a nucleusStrong electrostatic attraction between a shared pair of electrons and two nucleiQuestion 12 of 12 Loading... Related Posts:The entire quiz question bank!The entire quiz question bank (Double only)!Key Calculations quizEquilibria (triple) quizCondensation Polymers quizElectrolysis quiz Hydr0Gen2020-03-11T12:55:09+00:00Categories: Uncategorized|Tags: Quiz, Topic: Structure & Bonding| Share This Story, Choose Your Platform! FacebookXRedditLinkedInTumblrPinterestVkEmail
