Credit: Liam C-Grove, Ray MC
Thursday, 11 July 2013
Acids & Carbonates
Acids and carbonates when they are mixed release carbon dioxide, water and salt.
Acid + Carbonate à Salt + Carbon Dioxide + Water
Mixtures
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Equations
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Observations
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Hydrochloric Acid + Copper Carbonate
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2HCl + CuCO3 ---> CO2 +
H2O + CuCl2
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When the acid and carbonate mix together there is an immediate
reaction as the mixture fizzes up it rises right to the top of the test tube
and then suddenly starts to drop back down and goes back to a liquid, then
about 20 seconds later it has started to change from an originally green
cloudy colour to a clear light blue
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Hydrochloric Acid + Magnesium Carbonate
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2HCl + MgCO3 ---> CO2 +
H2O + MgCl2
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When the acid and carbonate mix together there is an immediate
reaction as the mixture fizzes up it rises to about half way up the test tube
and then suddenly starts to drop back down and goes back to a cloudy milky
coloured liquid, unlike the copper carbonate solution this mixture doesn’t go
back to a see-through clear liquid it remains cloudy with the milky colour.
|
Metal carbonates normally react with acid to form different types of salts, carbon dioxide and water. A metal carbonate is a type of metal that is made as a result of a mixture between carbon and oxygen. Hence the equation.
Acid + Carbonate ----> Salt + Water + Carbon Dioxide
GROUP SKUX (Ray MC, Liam C-Grove, Mady, J-Chan, T-Roar)
The pH scale is used to determine whether a substance is
either acidic or basic. We want to find this information because it is
important in determining if the substance can be applied to something. To find
this out, you must add drops of Universal Indicator to the substance.
The pH scale has different colours and numbers to indicate this; the scale runs from 1 - 14.
However, the acids are from 1.0 - 6.9 (Pink - Yellow).
Litmus paper also helps to indicate acids and bases. The special paper turns either blue or red depending if it is an acid or a base. Blue for a base, red for an acid.
Credit: J-Chan
pH Scale & Indicators
pH Scale:
The pH scale is used to determine whether a substance is
either acidic or basic. We want to find this information because it is
important in determining if the substance can be applied to something. To find
this out, you must add drops of Universal Indicator to the substance.The pH scale has different colours and numbers to indicate this; the scale runs from 1 - 14.
However, the acids are from 1.0 - 6.9 (Pink - Yellow).
Litmus paper also helps to indicate acids and bases. The special paper turns either blue or red depending if it is an acid or a base. Blue for a base, red for an acid.
The reaction between acids and metals
when metals reacts with an acid they produce hydrogen and a salt e.g. sulfate, nitrate, chloride and ethanoate. in our experiments we used the same metal (magnesium) and reacted it with four different acids.
Facts:
Facts:
- · Metal + acid = salt + hydrogen
- · Metals like copper and salt do not react with dilute acids
- · Reactive metals like lithium, sodium, potassium and calcium react violently with dilute acids
- · (H2) hydrogen is colourless and odourless. You may be able to hear a squeaky pop sound when a burning splint is held over a test tube which has hydrogen gas present.
- · Nitrate, chloride, ethanoate and sulfate are all types of salts
Reactions:
- · Ethanoic acid + magnesium strip = magnesium ethanoate + hydrogen
You know that a reaction has occurred due to violent
fizzing, a release of heat, the substance becomes cloudy, the magnesium strip
begins to corrode before disappearing, changes to an orange colour.
- · Sulphuric acid + magnesium strip = magnesium sulphate + hydrogen
Reaction has occurred when magnesium is floating at
the top of the substance, it begins to bubble and become cloudy, changes colour
to a pink rather than red, magnesium strip may disappear
- · Hydrochloric acid + magnesium strip = magnesium chloride + hydrogen
Reaction has occurred when the substance begins to
bubble and turn cloudy, magnesium floats to the surface before gradually
disappearing, less violent than ethanoic reaction, the substance heats up as
the hydrogen gas levels increase, changes colour to red
- · Nitric acid + magnesium strip = magnesium nitrate + hydrogen
Reaction has occurred when the substance begins to
fizz and bubble, turns a red colour before going yellow, goes cloudy, mixture
begins to warm, magnesium sinks to the bottom before disappearing
Equations:
Mg(s) + 2CH3COOH(aq) --> Mg(CH3COO)2(aq) + H2 (g)
H2SO4 + Mg = MgSO4 + H2
H2SO4 + Mg = MgSO4 + H2
2HCl + Mg = MgCl2 + H2
2HNO3 + Mg = Mg(NO3)2 + H2
Magnesium fizzing in hydrochloric acid
The final results of the reactions listed above
Acids used in the experiments above
Friday, 5 July 2013
Isotopes
Some elements have isotopes - atoms with different mass numbers, so different numbers of neutrons. For example, chlorine has a relative atomic mass of 35.45. This means that the average mass of all chlorine atoms is 35.45. From this we can infer that the most common isotope of chlorine has a mass of 35, but there must also be isotopes with a higher mass, such as 36 or 37.
Wednesday, 3 July 2013
Sodium Reaction Wed 3/6
If this doesn't work try the link here
http://www.youtube.com/watch?v=2T3Ll__C09w
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