knowt logoknowt logo
HomeExploreExamsBlog
knowt logoKnowt
Rating
5.0(2)
Exam Icon
Take a practice test
Flashcard Icon
undefined Flashcards
0.0(0)

Studied by 0 people

Tags

Chemistry

GCE

IGCSE

GCSE

OLEVEL

CAIE

CHEMISTRY

ORGANIC CHMISTRY

INORGANIC CHEMISTRY

SALTS

SOLUBILITY

TITRATION

PRECIPITATION

The City School

Grade 11

Salts

Explore Top Notes
Iliaca interna o hiposgástrica
noteNote
studied byStudied by 12 people
5.0 Stars(1)
APUSH: Period 3 Map Quiz
noteNote
studied byStudied by 30 people
5.0 Stars(1)
economic strategies/systems
noteNote
studied byStudied by 3 people
5.0 Stars(1)
The Election of 1844 and US-Mexico War
noteNote
studied byStudied by 1 person
5.0 Stars(1)
Chapter 17: The Microorganisms Viruses, Bacteria, and Protists
noteNote
studied byStudied by 11 people
5.0 Stars(1)
History What we have studied so far
noteNote
studied byStudied by 1 person
5.0 Stars(1)
knowt logo

Chapter 12- Salts

  • Salts are ionic compounds formed when a metallic ion or an ammonium ion replaces one or more hydrogen ions of an acid.

  • Salts that have water are called hydrated salts while salts that don’t have water are called anhydrous salts.

  • Salts can be characterised as either soluble or insoluble in water. This also determines the method of preparing a particular salt. Solubility can be determined by the following solubility rules.

SOLUBILITY RULES

  1. All group I, ammonium and nitrate salts are soluble.

  2. All chlorides are soluble except silver chloride and lead (II) chloride

  3. All sulfates are soluble except barium sulfate, lead (II) sulfate and calcium sulfate

  4. All carbonates are insoluble except group I and ammonium carbonates

METHODS OF PREPARING SALTS

Method of preparation

Solubility of salt in water

Solubility of reactant in water

Titration

Soluble

Soluble

Reaction of acids

Soluble

Insoluble

Precipitation

Insoluble

Soluble

  • Reaction with acids cannot be used with explosively reactive metals (Group I) or unreactive metals (e.g. copper and silver). However, warm acid can sometimes be used for unreactive metals.

METHOD 1: REACTION OF ACID WITH INSOLUBLE METAL/CARBONATE/BASE

  1. Fill a beaker with dilute acid and add insoluble metal/carbonate/base in excess. Wait until the reaction completes by ensuring that no more effervescence is observed.

  2. Filter to remove excess metal/carbonate/base and collect the filtrate.

  3. Heat the filtrate to concentrate the salt solution until crystals form (use a glass rod as a saturation test).

  4. Let the crystals to cool.

  5. Wash with organic solvent and dry between pieces of filter paper.

METHOD 2: PRECIPITATION

  1. Add two solutions of soluble salts with the required anion and cation into a beaker until no precipitate forms.

  2. Filter to collect the precipitate.

  3. Wash the precipitate with distilled water and dry between sheets of filter paper.

METHOD 3: TITRATION

  1. Fill up a burette with dilute acid.

  2. Pipette an alkali to a conical flask with a few drops of pH indicator such as phenolphthalein.

  3. Add dilute acid to the flask gradually, swirling after each addition until the end-point is reached (the indicator changes colour).

  4. Note down the volumes of the acid and alkali.

  5. Repeat using the recorded values in a volumetric flask without adding the indicator.

  6. Heat gently in an evaporating dish until crystallisation point.

  7. Wash with an organic solvent and dry between pieces of filter paper.

QUALITATIVE ANALYSIS

  • The process of identifying cations and anions is called qualitative analysis.

  • Tests for cations:

Cation

Effect of aqueous sodium hydroxide

Effect of aqueous ammonia

Zinc, Zn+

White ppt, soluble in excess

White ppt, soluble in excess

Aluminium, Al3+

White ppt, soluble in excess

White ppt, insoluble in excess

Lead (II), Pb2+

White ppt, soluble in excess

White ppt, insoluble in excess

Calcium, Ca2+

White ppt, insoluble in excess

No ppt

Copper (II), Cu2+

Light blue ppt, insoluble in excess

Light blue ppt, soluble in  excess

Iron (II), Fe2+

Green ppt, insoluble in excess

Green ppt, insoluble in excess

Iron (III), Fe3+

Red brown ppt, insoluble in excess

Red brown ppt, insoluble in excess

Ammonium, NH4+

Ammonia gas is given off when heated

No ppt

Chromium (III), Cr3+

Green ppt, soluble in excess

Green ppt, insoluble in excess

  • Tests for anions:

Anion

Test

Test Result

Carbonate, CO32-

Add dilute HCl

Effervescence, carbon dioxide is produced

Nitrate, NO3-

Add aqueous NaOH, then add aluminium foil and warm carefully

Effervescence, ammonia is given off

Sulfate, SO42-

Add dilute nitric acid, then add aqueous barium nitrate

White ppt of barium sulfate

Chloride, Cl-

Add dilute nitric acid, then add aqueous silver nitrate

White ppt of silver chloride

Iodide, I-

Add dilute nitric acid, then add aqueous silver nitrate

Yellow ppt of silver iodide

  • Tests for gases:

Gas

Test and result

Ammonia

Turns damp red litmus blue

Carbon dioxide

Turns limewater (calcium carbonate) milky

Chlorine

Turns blue litmus red, then bleaches it

Hydrogen

Lighted splint extinguishes with a ‘pop’ sound

Oxygen

Glowing splint is rekindled

Sulfur dioxide

Purple acidified potassium manganite VII turns colourless

  • Tests for water: Add anhydrous copper (II) sulfate. It changes from white to blue.

  • Or test using cobalt (II) chloride paper. It turns from white to pink.

BR
homeHomeknowt breadcrumb
Science
knowt breadcrumb
Chemistry
Other

Chapter 12- Salts

  • Salts are ionic compounds formed when a metallic ion or an ammonium ion replaces one or more hydrogen ions of an acid.

  • Salts that have water are called hydrated salts while salts that don’t have water are called anhydrous salts.

  • Salts can be characterised as either soluble or insoluble in water. This also determines the method of preparing a particular salt. Solubility can be determined by the following solubility rules.

SOLUBILITY RULES

  1. All group I, ammonium and nitrate salts are soluble.

  2. All chlorides are soluble except silver chloride and lead (II) chloride

  3. All sulfates are soluble except barium sulfate, lead (II) sulfate and calcium sulfate

  4. All carbonates are insoluble except group I and ammonium carbonates

METHODS OF PREPARING SALTS

Method of preparation

Solubility of salt in water

Solubility of reactant in water

Titration

Soluble

Soluble

Reaction of acids

Soluble

Insoluble

Precipitation

Insoluble

Soluble

  • Reaction with acids cannot be used with explosively reactive metals (Group I) or unreactive metals (e.g. copper and silver). However, warm acid can sometimes be used for unreactive metals.

METHOD 1: REACTION OF ACID WITH INSOLUBLE METAL/CARBONATE/BASE

  1. Fill a beaker with dilute acid and add insoluble metal/carbonate/base in excess. Wait until the reaction completes by ensuring that no more effervescence is observed.

  2. Filter to remove excess metal/carbonate/base and collect the filtrate.

  3. Heat the filtrate to concentrate the salt solution until crystals form (use a glass rod as a saturation test).

  4. Let the crystals to cool.

  5. Wash with organic solvent and dry between pieces of filter paper.

METHOD 2: PRECIPITATION

  1. Add two solutions of soluble salts with the required anion and cation into a beaker until no precipitate forms.

  2. Filter to collect the precipitate.

  3. Wash the precipitate with distilled water and dry between sheets of filter paper.

METHOD 3: TITRATION

  1. Fill up a burette with dilute acid.

  2. Pipette an alkali to a conical flask with a few drops of pH indicator such as phenolphthalein.

  3. Add dilute acid to the flask gradually, swirling after each addition until the end-point is reached (the indicator changes colour).

  4. Note down the volumes of the acid and alkali.

  5. Repeat using the recorded values in a volumetric flask without adding the indicator.

  6. Heat gently in an evaporating dish until crystallisation point.

  7. Wash with an organic solvent and dry between pieces of filter paper.

QUALITATIVE ANALYSIS

  • The process of identifying cations and anions is called qualitative analysis.

  • Tests for cations:

Cation

Effect of aqueous sodium hydroxide

Effect of aqueous ammonia

Zinc, Zn+

White ppt, soluble in excess

White ppt, soluble in excess

Aluminium, Al3+

White ppt, soluble in excess

White ppt, insoluble in excess

Lead (II), Pb2+

White ppt, soluble in excess

White ppt, insoluble in excess

Calcium, Ca2+

White ppt, insoluble in excess

No ppt

Copper (II), Cu2+

Light blue ppt, insoluble in excess

Light blue ppt, soluble in  excess

Iron (II), Fe2+

Green ppt, insoluble in excess

Green ppt, insoluble in excess

Iron (III), Fe3+

Red brown ppt, insoluble in excess

Red brown ppt, insoluble in excess

Ammonium, NH4+

Ammonia gas is given off when heated

No ppt

Chromium (III), Cr3+

Green ppt, soluble in excess

Green ppt, insoluble in excess

  • Tests for anions:

Anion

Test

Test Result

Carbonate, CO32-

Add dilute HCl

Effervescence, carbon dioxide is produced

Nitrate, NO3-

Add aqueous NaOH, then add aluminium foil and warm carefully

Effervescence, ammonia is given off

Sulfate, SO42-

Add dilute nitric acid, then add aqueous barium nitrate

White ppt of barium sulfate

Chloride, Cl-

Add dilute nitric acid, then add aqueous silver nitrate

White ppt of silver chloride

Iodide, I-

Add dilute nitric acid, then add aqueous silver nitrate

Yellow ppt of silver iodide

  • Tests for gases:

Gas

Test and result

Ammonia

Turns damp red litmus blue

Carbon dioxide

Turns limewater (calcium carbonate) milky

Chlorine

Turns blue litmus red, then bleaches it

Hydrogen

Lighted splint extinguishes with a ‘pop’ sound

Oxygen

Glowing splint is rekindled

Sulfur dioxide

Purple acidified potassium manganite VII turns colourless

  • Tests for water: Add anhydrous copper (II) sulfate. It changes from white to blue.

  • Or test using cobalt (II) chloride paper. It turns from white to pink.