Chapter 10 Structure of Substances Website: http://www.chemguide.co.uk/atoms/structsmenu.html Structure of substances Exist as either molecular structures or giant structures Construct a concept map for different structures of substances. Concept Map substances molecular structures Giant structures giant metallic structures examples simple molecular structures macromolecules examples examples giant ionic structures giant covalent structures Elements e.g., copper examples examples examples Elements e.g., oxygen, etc. compounds e.g., carbon dioxide plasrtic e.g., polyethene examples compounds e.g., NacCl Elements e.g., diaomond Compounds e.g., Silicon dioxide Simple Molecular Structures Most non-metals and covalent compounds Composed of simple discrete covalent molecules e.g., hydrogen, chlorine, and water Structure of iodine I2 molecules packed in a regular pattern. Held by weak intermolecular forces (van der Crystal Structure of Waals’ forces). Iodine Structure of dry ice (solid carbon dioxide) Carbon dioxide molecules paced regularly. Held together by weak intermolecular forces. Crystal Structure of Carbon Dioxide =C =O Electronic diagram of ammonia ? xx H x o N xo H x H o Properties of simple molecular structures Low melting points and boiling points. Soft Usually insoluble in water, but soluble in nonaqueous solvents. Non-conductors of electricity, whenever as solids, liquids, or in aqueous solutions. Except: aqueous solutions of carbon dioxide, ammonia & sulphur dioxide As an electrolyte when dissolved in water Why ??? A few covalent compounds ionize when dissolved in water. Mobile ions help to conduct electricity. SO2(g) + H2O(l) H2SO3(aq) H2SO3(aq) 2H+(aq) + SO32-(aq) Why are covalent compounds volatile? The covalent molecules are held together by weak intermolecular forces (van der Waals’ forces) Little heat energy is needed to separate the molecules. Why are they soft? Intermolecular forces between molecules are weak. It is wasy to separate the molecules from each other. Why are they insoluble in water? ‘Like dissolves like’ Principle. The intermolecular forces between covalent molecules are much weaker than that between water (solvent) molecules. Why are they non-conductors of electricity? They are neutral molecules. They neither have mobile ions nor mobile electrons for conducting electricity. Macromolecules Containing thousands of atoms which are bonded together by covalent binds. Examples: carbohydrates (polysaccharides) Proteins – made of amino acids. Plastics - e.g., polyethene, polystyrene, etc. Giant structures Giant ionic structures – made up of oppositely charged ions. (e.g., cations and anions) Giant covalent structures – made up of atoms which are bonded together by covalent bonds in the form of a network. Giant metallic structures – consists of regularly packed positive metal ions bathed in a sea of delocalized electrons. Giant ionic structures How an ionic compound is formed? Usually formed by combining a metal with a non-metal. Ionic crystals consist of negative and positive ions held together by strong non-directional electrostatic attractions (ionic bonds) Ions are regularly packed in a 3-dimensional structure. e.g., sodium hydroxide, copper(II) sulphate-5-water Sodium chloride Electronic diagram of magnesium chloride oo o o Cl oo xx o x x x Mg xx x x - oo 2+ o x Cl oo o o Properties of giant ionic structures Solids at room temperature High melting points and boiling points Usually soluble in water, but insoluble in nonaqueous solvents. Conducts electricity when molten or in aqueous solution. Why are they high melting solids? The oppositely charged ions (caions & anions) are held together by strong electrostatic attractions (ionic bonds)., A lot of heat energy is needed to overcome the strong ionic bonds between ions. Electrical Conductors Definition ??? An electrical conductor conduct electricity without any chemical change. e.g., copper, iron, liquid mercury, (metals) and graphite. Electrolytes Definition ??? An electrolyte conducts electricity when molten or in aqueous solutions. It decomposes at the electrodes while conducting electricity. e.g., sodium chloride, sodium sulphate Aqueous solutions of a few covalent compounds, such as carbonic acid, and ammonia solution, are weak electrolytes. Solid Ionic compounds : Non-conductors of electricity Why ??? In solid ionic compounds, ions are held by strong electrostatic forces and are not mobile. Hot molten ionic compounds or its aqueous solutions Why ??? Ions become mobile when dissolved in water or in hot molten state. Can be electrolyzed / decomposed when conducting electricity. Ionic Compounds –usually soluble in water Why ? Is water a covalent compound? Why water is an universal solvent? Water – a polar solvent Benzene, chloroform, absolute alcohol, etc – non-aqueous solvent. Water – a polar solvent A polar covalent compound ??? Is chorine molecule polar? ? Why ? In chlorine molecule, 2 chlorine atoms link together by a non-polar covalent bond. The 2 chlorine atoms (identical atoms) share the 2 bonding electrons equally. (Each with 50 % share.) Water – a polar solvent Is the OH bond of the H2O molecule non-polar? Are the 2 atoms identical? The bonding electrons are not equally shared by the two atoms. (oxygen & hydrogen) The oxygen atom has a greater share of the bonding electrons. Water – a polar solvent Oxygen atom thus has a partial negative charge ( -). Hydrogen atom has a partial positive charge (+). O + H H + How sodium chloride dissolves in water? How sodium chloride dissolves in water? When the attractive forces between ions and water molecules are greater than that between oppositely charged ions, the ionic compound dissolves in water. However, some ionic compounds are insoluble in water. (i.e., Attractive forces between ions and water are smaller than that between oppositely charged ions.) Examples ??? Limestone (calcium carbonate), copper (II) oxide Giant covalent structures Millions of non-metal atoms link together by extensive strong covalent bonds. Link together by a network of covalent bonds. e.g., diamond, silicon(IV) oxide, etc. 2 different crystals of carbon: diamond & graphite. Diamond carbon atom Each carbon atom links to 4 other carbon atoms in a tetrahedral arrangement. covalent bonds Silicon(IV) oxide Each silicon atom joins to 4 oxygen atoms Each oxygen atom joins to 2 silicon atoms. Key: represents an oxygen atom represents a silicon atom Properties of giant covalent structures Solids with very high melting points and boiling points. Hard (except graphite) Insoluble in any solvent. Non-conductors of electricity (except graphite) Why are they high melting solids? Atoms are bonded extensively by a network of strong covalent bonds. A lot of heat energy is needed to to break the extensive covalent bonds. Why are they non-conductors of electricity? Giant covalent structures have neither mobile ions nor mobile electrons. They are nonconductors of electricity. Giant metallic structures Metal atoms are packed closely together in a regular pattern to form giant metallic structure. Metallic Bond ?? What is the electronic structure of sodium? 2,8,1 The outermost shell electrons of sodium atoms – loosely held by the nucleus. Can be lost (given up) easily. Move freely and randomly in all directions. Known as ‘mobile’ / ‘delocalized’ electrons. Metallic Bond A piece of metal consists of a giant lattice of positive metallic ions surrounded by a ‘sea’ of mobile electrons. Definition ? The electrostatic attraction between a sea of mobile electrons and positive metal ions is known as the metallic bond. Non-directional. Metallic Bond Metallic structure Properties of Metals Good conductors of heat and electricity Solids with high melting and boiling points With high densities Malleable and ductile ??? Malleable – rolled into sheets Ductile – drawn into thin wires. High tensile strength Why are they good conductors of heat & electricity? There are mobile electrons in giant metallic structures. The mobile electrons are responsible for the conduction of electricity. When a piece of metal is connected to battery, the mobile electrons will flow in one direction only (from the negative pole of the battery to the positive pole). Thus, metals are good conductors of electricity. Metals are also good conductors of heat. When one end of the metal is heated, the delocalized electrons there become more energetic. They move faster, collide more frequently with neighbouring electrons. Heat is thus transferred from one end to the other. Heat is also conducted along the metal by the vibration of metal ions. Electrical Conduxtion Electrical Conduction Why metals are high melting solids? In giant metallic structures, atoms are regularly packed and held strongly by metallic bonds. A lot of energy is needed to overcome the strong metallic bonds. Therefore, metals usually have high melting points. Why they have high densities? Metals have high densities as their atoms are closely packed in giant metallic structures Why metals are malleable and ductile? When a force is applied to a piece of metal, the layers of atoms can slip over one another. There is no breaking of the metallic bond. The metal atoms are still held together by metallic bond. Metals are malleable and ductile.