Formulae And Amounts

Question 1

Calculate moles when mass is given

Answer 1

Moles= mass/molar mass (RFM)

Question 2

Calculate moles in a solution

Answer 2

Moles = concentration x volume

Question 3

Calculate moles in gas at room temperature and pressure

Answer 3

Volume = moles x 24

Question 4

Cm3 into dm3

Answer 4

Divide by a 1000

Question 5

Calculate gas at any temperature or pressure and give the SI units for each component also known as ideal gas equation

Answer 5

PV=nRT
Pressure in pascals (kPax1000)
Volume in dm3
N=number of moles 
R=8.31 
T=temp in Kelvin (Celsius plus 273)

Question 6

Avagado calculations

Answer 6

Moles x 6.02x10 to the power of 23 = number of molecules

Question 7

Empirical formula table headings (vertically)

Answer 7

Horizontally is the elements
Mass or %
RFM 
Moles
Divide by the smallest
Ratio

Question 8

Combustion analysis

Answer 8

😓

Question 9

General procedure for mole calculations

Answer 9

Balanced equation 
Write what you know under each species 
Convert to moles where possible 
Use molar ratio (stoichiometry) to find where you’re going 
Convert into asked units

Question 10

Find molecular formula

Answer 10

Empirical formula mass then divide by given mass and multiply each element in compound by the scale factor

Question 11

Mole definition

Answer 11

Amount of substance that contains the same number of particles as 12g of Carbon - 12 isotope

Question 12

Mass concentration equation

Answer 12

Mass of solute divided by volume of solvent

Question 13

Molar concentration equation

Answer 13

Rearranging concentration x volume = moles to get concentration = moles divided by volume

Question 14

What is a standard solution?

Answer 14

A solution whose concentration is accurately known.

Question 15

What are primary standards?

Answer 15

Substances used to make a standard solution by weighing.

Question 16

Primary standards criteria:

Answer 16

Solids with high molar masses
High purity 
Chemically stable 
React rapidly and completely with other substances used in titrations 
 To abosorb water from the atmosphere

Question 17

Apparatus for making primary solution of sulfamic acid

Answer 17

Accurate balance
Weighing bottle 
Spatula 
250cm3 beaker and volumetric flask 
Deionised water 
Funnel 
Glass stirrring rod

Question 18

How to prepare a primary solution of sulfamic acid

Answer 18

Add approximately 2.5g of sulfamic acid to the weighing bottle and record measurement then transfer acid to a beaker and weigh bottle again. Add 100cm3 of deionised water to beaker until all sulfamic acid is dissolved and stir with rod. Use deionised water to wash all traces of acid from rod into beaker. Then place funnel in volumetric flask and pour solution from beaker. Rinse the inside of the beaker several times and transfer findings to flask. Add deionised water to flask and make it up exactly to the graduation mark. Put stopper and invert half a dozen times to make a uniform solution.

Question 19

What is the aim of titration

Answer 19

Measuring the volumes of two solutions that react together can also be known as volumetric analysis

Question 20

Titration method

Answer 20

Rinse the conical flask with deionised water on a white tile
Use a pipette fillers and rinse the pipette with deionised wafer and then with some of sodium hydroxide
Use the pipette to transfer 25cm3 of sodium hydroxide to the conical flask
Add three drops of methyl orange
Rinse the burette with deionised water and then with some sulfamic acid solution
Fill burette with sulfamic acid and set it up above the conical flask
Record initial burette reading
Add sulfamic acid to the conical flask until the indicator just changed colour and again record burette reading
Empty and rinse conical flask with deionised water and repeat till concordant titres are obtained

Question 21

Concordant titres

Answer 21

Each with thing 0.1cm3 of each other and all together 0.2cm3

Question 22

Methyl orange colour changes and works well with what combinations of acids and bases

Answer 22

Red in acid
Yellow in alkali
Pink in neutral

Strong acid weak bade
Strong acid strong base

Question 23

Phenolphthalein colour changes and acid base combinations

Answer 23

Colourless in acid
Pink in alkali

Weak acid strong base
Strong acid strong base

Question 24

Examples of strong acids are:

Answer 24

HCl

HNO3

Question 25

Examples of strong bases:

Answer 25

NaOH

KOH

Question 26

Commonest weak acid and commonest weak base

Answer 26

Ethanoic acid

Ammonia

Question 27

A student does not fill the space between tip and tap of burette. Explain the effect on the titre value.

Answer 27

The tire value would be more than in reality