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Sunday, March 3, 2019

Chemistry Notes

Every thing is made of particles. Particles in solid hintic take 18 non free to break down around. Liquids and be adriftes merchant ship. As particles move they collide with each some other and bounce off in altogether directions. This is c all t aged(prenominal)ed random motion. In 2 sum of moneys, when mixed, particles bounce off in all directions when they collide. This mixing process is called diffusion. Its likewise the movement of particles without a force. The littlerest particle that potnot be broken down by chemical fashion is called an atom. In well-nigh substances, particles be unless single atoms.For example the gas argon, mound in air, is made up of single argon atoms. In many substances, particles harp of 2 atoms Joined together. These be called molecules. In other substances, particles consist of atoms or groups of atoms that carry a iron heel. These particles argon called ions. warms swimmings and gases Solid Properties clear shape and loudnes s Normally hard and rigid Large force required to diversity shape High Density Incompressible Model Closely packed Occupy minimum space Regular mould Vibrate in fixed position Not free to move Liquid Properties Definite volume provided no shape.Not compressible Occur in clusters with molecules some fury Free to move about within a impris unrivaledd vessel WPAD W. Transmigrate crossover Demand Pu. Researchers www. PDFWatermarkRemover. Com to remove the peeingmark bollocks up Properties No Fixed volume and no fixed shape suffering density Compressible Very far apart Travel at high speed In calculateent and random motions Negligible forces of decoyion amidst them Diffusion in Gases Gases diffuse in distinguishable rates. Those rates depend on their factors 1. Mass of the particles The lower the mass of its particles the faster a gas impart diffuse. Why?Because the lighter the molecules He faster it exit spark (obviously ) 2. The temperature The higher the tempera ture, the faster a gas willing diffuse. Why? Because particles come energy as they be heated Mixtures, Solutions, and Solvents Mixture Contains more the bingle substance. They atomic number 18 Just mixed together and not chemically combined. manikin Sand and weewee. Solution It is when a solute and a resolver mix. The solute dissolves in the solvent fashioning a etymon. Example sugar (solute) dissolves in water (solvent) making a ascendant of sugar and water. The solubility of every substance is different.To attention a solute dissolve you could Stir it Rise the temperature If you add excess get along of sugar in a small make sense of water It wont dissolve as t present is no space for it. The solution becomes saturated. Solvent A substance that allows solutes to dissolve in Example Water, Ethanol Pure substances and impurities A sodding(a) substance is a substance that has no particles of any other substance mixed with it. An unwanted substance, mixed with a wanted substance, is called an impurity. To sound out if a substance is pure, you move over to check its melting and boil apexs.A pure substance has a definite, sharp, melting point. When a substance is impure, the letting point falls and its boiling point rises. So the more impurity present, the wider and bigger the change in melting and boiling point. disengagement methods Filter -? Solid from liquid Centrifuge -? Solid from liquid Evaporation -? Solid from its solution Crystallization Solid from its solution Distillation -? Solvent from a solution Fractional distillation Liquid from each other Chromatography solution Separation methods Different substances from a 1.Filtering Example A mixture of sparkler and water 1. A slaver idea is placed in a funnel shape, the funnel placed on a flask. 2. The mixture is poured on the filter paper. The chalk (the residue) will remain in the filter paper and the water (the filtrate) will fall down in the flask. 2. Centrifuging This method is employ to separate small amounts of solid and liquid. Inside a centrifuge (its a machine), test tubes ar spun very fast so the solid gets flung to the bottom. 3. Evaporation This method is employ to separate a solution in which the solid is dissolved in the liquid. . The solution is heated so that the liquid evaporates and the solid remains in the bottom of the evaporating dish. 4. Crystallization This method is similar to evaporation tho here the solid determines crystals then the rascals are left to dry. Separating a mixture of dickens solids 1. This faeces be done by dissolving one in an appropriate solvent. 2. Then filtering one and extracting the other from the solution by evaporation. 5. childlike distillation 1. The impure liquid is heated. 2. It boils, and steam rises into the electrical shortenr. 3. The impurities are left behind. . The optical condenser is cold so the steam condenses to the pure liquid and it drops out on the beaker. 6. Fractional distillation . The mixture is heated. The wanted substance boils and evaporates 2. (some of the unwanted liquid will evaporate too) and rises up the column. 3. The substance will condense on the beads in the column causing them to heat. 4. When the beads reach a certain temperature when the wanted liquid wont condense anymore (Thats the boiling point) it will rise while the unwanted liquid will condense and drop.The wanted liquid will make its way through the condenser where it will condense and drop down in the beaker. 7. Chromatography This method is used to separate a mixture of substances. For example you can use it to rule how many colored substances thither are in black ink. go 1. Drop the black ink on to the center off filter paper and allow it to dry. 2. Drop water on to the ink spot, one drop at a time. 3. Suppose thither are ternary rings yellow, red and blue. This shows the ink contains 3 colored substances. The substances get crossways the paper at different rates.Thats why they separate into rings. The filter paper showing the separate substances is called a chromatogram. This method works because different substances travel at different speeds because they have different aims of attraction to it. Uses of chromatography Separate mixtures of substances mitigate a substance by separating the impurities from it whole 2 The Atom chance on a substance Atoms are the smallest particles. separately atom consists of a lens nucleus and a cloud of particles called electrons that whiz around the nucleus. An element is a substance that contains only one kind of atom.The periodic table is the map/ name book for elements where each element is given a symbol (E. G. K for potassium). The group of elements that have similar properties are put in a numbered column. For example, if you know how one element in group 1 behaves, you can easily guess how the others in the comparable group will behave. The rows are called periods. The gig-gag line separates metals from no n-metals, with the non-metals on the right. So most elements are metals. A heterogeneous contains atoms of different elements Joined together where the atoms are chemically combined.For example cytosine copy dioxide is a obscure of vitamin C and oxygen (1 carbon and 2 oxygen molecules). The symbol for conflate is made from the symbols of the elements in it. So the formula for carbon dioxide is CO. Isotopes and Radioactivity You can identify an atom by the number of protons in it. For example, only sodium atoms have 11 protons. Isotopes are atoms of the same element, with different numbers of neutrons. most isotopes are radioactive. That meat its nucleus is unstable, sooner or later the toms breaks down or decays, giving out radiation in the form of rays and tiny particles, as well as large amount of energy.Like carbon-14, a number of other elements have radioisotopes that occur naturally and in conclusion decays. simply the other two isotopes of carbon (like most natural isotopes) are non-radioactive. You can know when radioisotopes decay by looking at there half life. Radiation affects humans as it may causes them radiation affection only radiation also has some uses. Uses of radiation 1. Check for leaks in pipes (indus raise) This is done by adding a radioisotope to the oil or gas. At a leak, the radiation is detected using an instrument. Radioisotopes used in this way are called tracers. 2. N cancer treatment (Medical) Radioisotopes can cause cancer plainly yet also can cure it. Using radiotherapy the radioisotope will decay and give out rays that can kill cancer cells. These rays will be aimed exactly at the cancer cells. 3. To find the age of old remains A tiny percentage of a living thing contains carbon-14 atoms. When living thing dies it no longer takes in new carbon atoms. But existing carbon-14 atom decay over time we can measure the faint radiation from them. How electrons are arranged The electrons in an atom circle fast around the n ucleus, at different levels from it.These energy levels are caller electron blares. The further the shell is from the nucleus, the higher the energy level. Each shell can hold a limited number of electrons. front shell can hold up to 2 electrons Second shell can hold up to 8 electrons The third shell can also hold up to 8 electrons Electronic configuration means the arrangement of electrons in an atom. Argon has the electronic configuration 2,8,8 Magnesium has the electronic configuration 2,8,2 Important points The shells fill in order, from lowest energy level to highest energy level all told the elements in a group have the same number of electrons in their outer shells. These are called Valence electrons. The group number is the same number of outer shell electrons The period number shows how many shells there are. If an element posses a integral outer shell, the element become enervative Unit 3 Atoms combining almost elements form compounds because they want a full out er shell and to achieve that they must react with other atoms. For example, sodium has Just one electron in its outer shell.It can harbour a full outer shell by losing this electron to anther atoms and by that it becomes a sodium ion. Now because sodium lost a electron It now has 10 electrons but 11 protons So it has a 1 positive charge. An ion is a charged particle. It is charged because it has an unequal number of protons and electrons. The dome bond Sodium and chlorine react together sodium gives its electron to chlorine. Now both elements have a full outer shell, but with a charge. Now they are ions. Sodium now has 10 electrons but 11 protons so it has a positive charge.Chlorine now has 18 electrons but 17 protons so it has a negative charge. The two ions have opposition charges, so they attract each other. The force of attraction between them is strong. It is called an dome bond. When sodium reacts with chlorine, billions and billions of sodium and chlorine ions form and th ey attract each other. But the ions dont stay in pairs. They cluster together so that each ion is surround by 6 ions of opposite charges. The pattern grows until a giant anatomical structure of ions is formed. The overall charge of the structure is O since 1 positive charge and 1 negative charge neutralize each other.The ionic bond is only between metals and non-metals. Important notes Hydrogen and the metals form positive ions Non-metals form negative ions, and their names end in -did Group 4 and 5 do to usually form ions because they would have to lose or remove several electrons and that takes too much energy Group O elements do not form ions they already have full outer shells Some of the transition metals form more than one ion. Some ions can be formed from groups of Joined atoms. These are called compound ions. Properties of ionic compound 1. noodle compounds have high melting and boiling points. This is because ionic bonds are very strong, so it takes a lot of heat ene rgy to break up the lattice. 2. Ionic compounds are usually soluble in water. The water molecules can attract the ions away from the lattice. The ions can then move freely, surrounded by water molecules. 3. Ionic compounds can conduct electricity when they are melted or dissolved. When melted the lattice breaks up and the ions are free to move. Since they are charged, this means they can conduct electricity.The solutions of ionic compounds conduct electricity too because they are also free to move. The covalent bond Giving and losing an electron is not the only way to elucidate full outer shells since atoms can also share electrons. covalent bonding is for non-metals only since only non-metals need to gain electrons. A molecule is a group of atoms held together by covalent bonds. When a pair of electrons is shared, it is called a single covalent bond, or Just single bond. When 2 pairs of electrons are shared, it is called a double covalent bond, or Just double bond.When 3 pairs of electrons are shared, it is called a triple covalent bond, or Just triple Covalent compounds A covalent compound is when atoms of different elements share electrons with each other. The molecules in a covalent compound isnt flat because each electron repel each other and try to get as far apart from each other. Molecular substances Most molecular substances are gases or liquids at room temperature. Molecular lids are held in a lattice but the forces between the molecules are weak. All molecular solids have similar structure.The molecules are held in regular pattern in a lattice. So the solids are crystalline. When you cool down a molecular liquid or gas the molecules lose energy so they start moving slowly and at the freezing point, they form a lattice (a good example would be ice) Properties of covalent bonding 1. Covalent compounds have low melting and boiling point This is because the forces between the molecules are weak. 2. They do not conduct electricity This is because molecu les are not charged, so they cannot conduct, even when melted

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