Chemistry Review

Beschreibung

GCSE Chemistry Karteikarten am Chemistry Review, erstellt von Hannah Fletcher am 25/05/2015.
Hannah Fletcher
Karteikarten von Hannah Fletcher, aktualisiert more than 1 year ago
Hannah Fletcher
Erstellt von Hannah Fletcher vor mehr als 9 Jahre
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Zusammenfassung der Ressource

Frage Antworten
Acid+ carbonate-> salt+ water+ carbon dioxide
Acid + metal-> salt+ hydrogen
Acid + alkali-> salt+ water
Strong acids Hydrochloric acid (HCl) Sulphuric acid (H2 SO4) Nitric acid (HNO3) All contain hydrogen (H+)
Strong alaklis Sodium hydroxide (NaOH) Potassium hydroxide (KOH) Lithium hydroxide (LOH) All contain hydroxide (OH-)
Sodium hydroxide (NaOH) Blue percipitate Copper Cu+ Cu(OH)2
Sodium hydroxide (NaOH) Green percipatate Iron (II) Fe 2+ Fe(OH)2
Sodium hydroxide (NaOH) Brown percipitate Iron (III) Fe 3+ Fe(OH)3
Flame test Lilac Potassium K+
Flame test Orange/ Yellow Sodium Na+
Flame test Crimson Lithium Li+
Flame test Brick red Calcium Ca 2+
Add sodium hydroxide (NaOH) warm red litmus turns blue Amonium NH4 +
Add dilute acid Bubbles (CO2) Carbonate (CO3) 2+
Add nitric acid and silver nitrate White percipate Chloride Cl-
Add nitric acid and silver nitrate cream precipitate Bromide Br-
Add nitric acid and silver nitrate yellow percipitate Iodide I-
Add hydrochloric acid and barium nitrate (BaSO4) White precipitate Sulfate (SO4) 2-
Isotopes same elements same number of protons different number of neutrons
Relative atomic mass Percentage divided by 100 multiplied by atomic number *Add both totals together*
Ions Elements that react together to gain a full outer shell of electrons either by gaining or losing electrons
Reduction Gaining electrons
Oxidaion Losing electrons
Non- metal ions usually negative
Metal ions Usually positive
Ionic bonding transfer of electrons - Mg (2,8,2) + O (2,6) -> Mg (2,8) + O (2,8)
Covalent bonding Sharing electrons to get a full outer sell -Hydrogen (H2) H-H -Oxygen (O2) O=O
Ionic bonding Between metal and non- metal transfer of electrons Ionic lattice (strong attraction) doesn't conduct when solid Very high melting point
Covalent bonding Between non- metals sharing electrons simple molecular structure (no attraction) low melting point doesn't conduct electricity
Mon-atomic bonding (argon) Singular atom very low melting and boiling point doesn't conduct electricity
Ionic bonding (sodium chloride) Giant ionic structure (alternating + and - ions) High meting point (attraction) conduct electricity (liquid only)
Covelent Simple molecular (O2) small molecules low melting point (weak forces) doesn't conduct
Covalent Giant covalent (Carbon (diamond, graphite) High melting and boiling point (multiple bonds) doesn't conduct electricity (except graphite)
Metallic (copper) Lattice (metal and delocalized electrons) high melting point (attraction) does conduct electricity
Empirical formula (simplest ratio of atoms in a compound) 1. write elements at the top 2. mole= mass/ Mr 3. divide by the smallest 4. write the formula
Potassium in water moves around quickly reacts immediately lights itself melts into ball
Sodium in water floats melts into round ball gives off gas (hydrogen) stays lit (orange flame)
Lithium in water Floats Fizzes/ bubbles Gas given off (hydrogen) Moves around
Halogens (Group 7) Means salt producing (reacts with metals) Non- metallic elements- diatomic (F2, Cl2) Florine & Chlorine (gas) Bromide (liquid) Iodine (solid) "Chlorine" smell (toxic)
Chlorine (Cl2) Colorless in solution and organic solvent
Bromide (Br2) Yellow in solution Orange in organic solvent
Iodine (I2) Brown in solution Purple in organic solvent
Making salts To soluble salts need to be combined
Test for oxygen Glowing splint re-lights
Test for carbon dioxide Bubble through lime water, turns cloudy
Test for chlorine blue litmus paper turns red then white (bleach)
Test for ammonia Red litmus paper tuns blue
Test for hydrogen lit splint, pop sound
Identifying ions Salts First name-> positive ions (cation) Second name -> negative ions (anions)
1 dm3 1000 cm3 1 liter 1000 ml
Concentration (mol/dm3) moles / volume (dm3)
Siblimation melting point
What is the colour of copper oxide (CuO (s) Black
How to obtain a pure dry salt? 1. Filter the mixture 2. Wash solid residue with distilled water 3. Dry in a oven or leave in a warm place
Titration 1. use volume and concentration of one reactant to calculate moles 2. use chemical equation to find moles of other reactant 3. calculate the volume or concentration as required of that reactant
Periodic table Groups- across Periods- down Transition- middle Halogens - group 7 Noble gases- group 8
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