Structure & Bonding (Triple) quiz Loading... 1. What is an alloy?An alloy is a mixture of a non-metal and one or more elements, usually other metals or hydrogenAn alloy is a mixture of a non-metal and one or more elements, usually other metals or carbonAn alloy is a mixture of a metal and one or more elements, usually other metals or carbonAn alloy is a mixture of a metal and one or more elements, usually other metals or hydrogenQuestion 1 of 20 Loading... 2. Explain, in terms of its structure, why graphite can conduct electricity.Graphite has delocalised protons which can moveGraphite has positive ions which can moveGraphite has delocalised electrons which can moveGraphite has layers which can easily slide over each otherQuestion 2 of 20 Loading... 3. Why do ionic compounds conduct electricity only when molten or in solution?When solid the electrons are held in place. When molten or in solution the electrons are free to moveWhen solid the ions are free to move. When molten or in solution the ions are held in placeWhen solid the ions are arranged regularly. When molten or in solution the ions are arranged irregularlyWhen solid the ions are held in place. When molten or in solution the ions are free to moveQuestion 3 of 20 Loading... 4. State whether covalent substances conduct electricity, and explain whyOnly when molten, because there are charged particles that are free to moveNo. Because there are no charged particles that are free to moveYes, because there are charged particles that are free to moveOnly under pressure, because there are charged particles that are free to moveQuestion 4 of 20 Loading... 5. Describe the structure of metalsA giant regular structure of positive metal ions surrounded by a sea of delocalised electronsA simple random structure of positive metal ions surrounded by a sea of delocalised electronsA simple regular structure of positive metal ions surrounded by a sea of delocalised electronsA giant random structure of positive metal ions surrounded by a sea of delocalised electronsQuestion 5 of 20 Loading... 6. 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 6 of 20 Loading... 7. How can atoms get a full outer shell?Either the transfer (ionic) or sharing (covalent) of electronsConversion of electrons to protonsEither the transfer (covalent) or sharing (ionic) of electronsOnly transfer (ionic) of electronsQuestion 7 of 20 Loading... 8. A student has drawn a diagram to show the structure of a metallic solid, but forgotten to label the parts. Which of the following correctly lists those parts?Positive metal ions. Delocalised electrons. Giant Structure.Positive metal ions. Delocalised negative ions. Giant Structure.Oppositely charged ions in a sea of delocalised electrons. Giant structure.Positive metal ions. Delocalised electrons. Weak intermolecular forces.Question 8 of 20 Loading... 9. Give the definition of a covalent bondStrong electrostatic attraction between a postive ion and a sea of delocalised positive ionsStrong electrostatic attraction between oppositely charged ionsStrong electrostatic attraction between a shared pair of electrons and a nucleusStrong electrostatic attraction between a shared pair of electrons and two nucleiQuestion 9 of 20 Loading... 10. Describe the structure of an ionic compound, e.g NaClA giant structure held together by the attraction between oppositely charged ionsA giant structure held together by intermolecular forcesA giant structure held together by the attraction between similarly charged ionsA giant structure held together by the attraction between positive metal ions and a sea of delocalised electronsQuestion 10 of 20 Loading... 11. Explain why Silica, SiO₂ is a solid with a high melting pointSilica has a giant covalent structure with many strong covalent bonds that need a lot of energy to breakSilica 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 metallic structure with weak forces of attraction between layersQuestion 11 of 20 Loading... 12. A substance is found not to conduct electricity even when molten. What type of bonding does the substance have?IonicMetallicCovalentCovalent or ionicQuestion 12 of 20 Loading... 13. Describe the formation of a covalent bondThe electrostatic attraction between positive metal ions and a sea of delocalised electronsThe transfer of electrons from one atom to anotherThe sharing of a pair of electrons between two nucleiThe sharing of a single electron between two nucleiQuestion 13 of 20 Loading... 14. When can ionic substances conduct electricity?Only when moltenNeverWhen molten or dissolvedIn any stateQuestion 14 of 20 Loading... 15. State 2 properties that makes aluminium suitable for manufacturing aircraftLow density and reactiveLight and reactiveLow density and resists corrosionLight and resists corrosionQuestion 15 of 20 Loading... 16. Explain why carbon dioxide gas, CO₂, is a gas at room temperatureCarbon dioxide has a simple molecular structure with strong intermolecular forces that require a lot of energy to overcomeCarbon dioxide has a giant covalent structure with many strong covalent bonds which require a lot of energy to overcomeCarbon dioxide has a giant covalent structure with many weak covalent bonds which require little energy to overcomeCarbon dioxide has a simple molecular structure with weak intermolecular forces that require little energy to overcomeQuestion 16 of 20 Loading... 17. Why is the boiling point of a larger molecule higher than that of a smaller molecule?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.Larger molecules have more attractions between them. These take less energy to overcome.Question 17 of 20 Loading... 18. Why are alloys harder than pure metals?Alloys are more magnetic than pure metals so when they are formed the ions are packed closer togetherAlloys have higher melting points because they are mixtures so are harderAlloys contain different sized positive ions, so there are no layers of ions to slide over each otherAlloys often contain carbon which is a very hard elementQuestion 18 of 20 Loading... 19. Why do metals have high melting and boiling points?There is a strong electrostatic attraction between an irregular structure of positive metal ions and a sea of delocalised electronsThere is a weak electrostatic attraction between a regular structure of positive metal ions and a sea of delocalised electronsThere is a strong electrostatic attraction between a regular structure of positive metal ions and a sea of delocalised electronsThere is a strong electrostatic attraction between a regular structure of negative metal ions and a sea of delocalised protonsQuestion 19 of 20 Loading... 20. What holds ions together?Ions are held together by a strong electrostatic attraction between the similarly charged ionsIons are held together by a strong electrostatic attraction between the shared pair of electrons and their nucleiIons are held together by a strong electrostatic attraction between the oppositely charged ionsIons are held together by a strong magnetic attraction between the oppositely charged ionsQuestion 20 of 20 Loading... Related Posts:The entire quiz question bank!The entire quiz question bank (Double only)!Key Calculations quizEquilibria (triple) quizCondensation Polymers quizElectrolysis quiz Hydr0Gen2020-02-16T12:32:52+00:00Categories: Uncategorized|Tags: Quiz, Topic: Structure & Bonding| Share This Story, Choose Your Platform! FacebookXRedditLinkedInTumblrPinterestVkEmail