Chemical Compounds(EDUCATIONPOINT.CO.CC)
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Washing Soda (Na 2CO3. 10H2O) Washing Soda is actually Sodium Carbonate decahydrate, (Na 2CO3. 10H2O). In which ten molecules of water of crystallization are present. Soda Ash (Na2CO3) – Anhydrous Sodium Carbonate is commonly known as Soda Ash. In India deposits of Soda are found in Dehradun, Mathura, Jaunpur, Varanasi in the form of reh or sajji. Sodium Carbonate is prepared on a large scale by Solvay Process (ammonia. soda. process) Raw materials used – NaCl, NH 3, CaCO3 Sodium Chloride, ammonia & Calcium carbonate. SOLVAY PROCESS:
← NH3 + CO2 (TRACES)
CARBONATING TOWER
LIME KILN CaCO3
∆ ⎯ ⎯→ ⎯ CaO
+ CO2
BRINE
SATURATION TANK NaCl + H2O + NH3
Ammoniacal brine Solution
Calcium carbonated is heated to release Calcium oxide & CO2 E N I R B L A C I N O M M A G N I L O O C
CO2 NaCl + NH3 + H2O + CO2 NH4Cl + NaHCO 3 Ammoniacal brine reacts with carbon dioxide to give ammonium chloride& Sodium hydrogen
↓
CaO + H2O Ca(OH) 2
AMMONIA RECOVERY TOWER E M I L D E K A L S
Ca(OH)2 + NH4Cl STEAM
CaCl2 + 2NH3 + 2H2O
carbonate.
FILTER
NH4Cl + a little NH4CO3 FILTER
* concentrates “NaHCO 3” & sends other chemical compounds to ammonia recovery tower 1 STEPS _________________________ _____________ _________________________ ________________________ ______________________ ___________ th Get free chapterwise tests for Class X on www.tcyonline.com
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Washing Soda: Washing Soda is a transparent, crystalline solid which is a major constituent of washing powder. Chemical formula of Washing Soda is Na 2CO3. 10H 2O Sodium Carbonate decahydrate. decahydrate. It is prepared by dissolving Sodium Carbonate crystals in water (limited). Na2CO3 + 10 H2O → Na2CO3. 10H 2O Efflorescence: Efflorescence: Some compounds which have water of crystallization when exposed to air loose them, this property of loosing water of crystallization crystallization is termed efflorescence. For instance when crystals of washing soda are left in open in air, they lose molecules of water of crystallization. crystallization. Na2CO3. 10H2O → Na2CO3. H2O + 9H2O Uses of Sodium Carbonate: 1.
Manufacture of glass, soap, paper & other sodium compounds.
2.
Removing permanent hardness.
3.
Laundry as washing soda.
4.
Domestic purposes as cleaning agent.
5.
as a laboratory reagent.
Baking Soda: 1.
Baking Soda is Sodium hydrogen carbonate.
2.
Chemical formula: NaHCO3
3.
Commercially it is prepared from Solvay Process.
Properties: 1.
Crystals of Sodium Hydrogen Carbonate Carbonate are white in colour.
2.
Sparingly soluble in water & solution is alkaline in nature.
Why Sodium Hydrogen carbonate is used in baking? If a solution of Sodium hydrogen carbonate is boiled or heated, carbon dioxide is given off. Hence it is used as a constituent of baking powder to aerate the dough. Heat 2NaHCO3 ⎯ ⎯ ⎯ → Na2CO3 + H2O + CO2
Sodium Hydrogen
Sodium Carbonate
Carbonate
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Uses: 1.
used as an antacid.
2.
used as food additives in food (for baking) & drinks (effervescence)
3.
Used in fire extinguisher.
Bleaching Powder (CaOCl 2):*
Chemical name: Calcium oxy chloride
Manufactured by the action of chlorine on dry slaked lime (Ca(OH) 2) It is also called chloride of lime. Ca(OH) 2 + Cl2 → CaOCl 2 + H2O Bleaching Powder
Hasenclever plant for the manufacture of bleaching powder.
Properties: 1.
It is a yellowish yellowish white powder which smells of chlorine chlorine because it gradually gradually loses its chlorine when left exposed to the air.
2.
CaOCl 2 + CO2 → CaCO3 + Cl2 CaOCl 2 + 2HCl → CaCl2 + H2O + Cl2 CaOCl 2 + H2SO4 → CaSO4 + H2O + Cl2
Uses: 1.
Used for bleaching cotton, linen, paper, wood pulp.
2.
Used as oxidising agent in many chemical industries.
3.
Used for disinfecting drinking water to make it free from germs.
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⎛ ⎝
Plaster of Paris: ⎜ CaSO 4 .
1 ⎞ H2 O ⎟ 2 ⎠
Chemical composition – CaSO 4.
1 H2O 2
Preparation: POP is obtained by heating gypsum (CaSO 4. 2H2O) at 373K. 1 1 373 CaSO 4 . 2H 2 O ⎯ ⎯ ⎯ → CaSO 4 . H 2O +1 H 2 O 2 2 Gypsum Plaster of Paris Properties of POP: 1.
White powder, powder, when dissolved in water, water, crystals of gypsum are produced produced again & set set to form a hard solid mass. 1 CaSO 4 . H 2 O → CaSO4 . 2H 2 O 2 Gypsum
Uses: POP is used in making 1.
toys, decorative material, jewellery, cosmetics & cases for statues.
2.
For setting fractured bones in right position & dentistry.
3.
Smooth surfaces & ornate design on walls & ceiling.
4.
In laboratories for sealing the air gaps in apparatus to make it air tight.
Lime (CaO): 1.
This is a man man – made chemical, it is made by heating lime stone (CaCO 3).
Manufacture:
A vertical lime kiln.
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Lime is made by heating lime stone at about 1273K in a lime kiln & the process is called calcining. 1237K CaCO 3
CaO + CO 2
⇌
Lime Stone
Lime
Properties: 1.
Calcium oxide is an amorphous white solid having a high melting point (2273K).
2.
When added to water, water, produces produces hissing sound & generates heat & form form slaked slaked lime (calcium hydroxide).
Calcium oxide does not react with dry hydrogen chloride gas, but it reacts with moist hydrogen chloride gas to form calcium chloride. Uses: 1.
Lime is used used as as a drying agent in the lab lab for for drying ammonia & alcohol.
2.
Used for manufacture of calcium chloride, cement & glass.
3.
Used in making lining of furnaces.
4.
Used for white washing.
Cement: It is one of the most important building materials used throughout the world. It is a fine grey powder which sets after a few hours when mixed with water & then hardens in a few days into a solid & strong material. Manufacture Raw material: Limestone & clay Lime → CaO →
60 – 70%
⎧SiO2 → 20 − 25% ⎪ Clay ⎨Al 2 O 3 → 5 −10% ⎪Fe O → 2 − 3% ⎩ 2 3 Sand & Clay are taken in ratio 3: 1 by mass. The mixture is ground to a fine powder. Finely ground powder is then heated to 1773 K in a rotary kiln to produce clinker. Clinker – It is the homogenous mixture mixture which is produced in rotary kiln & made made up of dicalcium silicates (Ca2SiO4) Tricalcium Silicate (Ca 3SiO5) & tricalcium aluminate (Ca 3Al2O6). The clinker is cooled & mixed with 2 – 5% gypsum, to delay its setting time. Diagram Uses: 1.
Cement is mixed mixed with with sand sand to form form mortar, mortar, which is used for plastering and binding bricks and stones.
2.
A mixture mixture of cement with sand and aggregates of crushed crushed stones is called concrete, concrete , which is used in the construction of buildings, roads, dams, bridges, bridges, etc. STEPS _________________________ ______________________________________ ________________________ ______________________ ___________ th Get free chapterwise tests for Class X on www.tcyonline.com
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3.
Steel rods, bars and other other hard hard materials materials are sometimes embedded embedded in the wet concrete. As the concrete sets, it sticks to these materials to form reinforced concrete cement (RCC), (RCC) , which is much stronger. Other materials used for reinforcing concrete are asbestos, wire – mesh, bamboo, etc. RCC is used for making pipes, gutters, etc.
Glass: Manufacture: Average composition of ordinary glass (Soda glass) corresponds to the formula. Na 2O. CaO. 6SiO 2. A mixture of Sodium Carbonate & Sand is finely powdered. The mixture is known as batch is mixed with broken glass pieces called cullet & then fused in a tank furnace at 1673. *
Cullet increases the fusibility of the glass produced. Na 2 CO3 + SiO2 → Na 2 SiO3 + CO2 Sodium
Sodium
Carbonate
Silicate
CaCO3 + SiO2 → CaSiO3 + CO2 Calcium
Calcium
carbonate
Slicate
Figure Annealing of glass: The hot molten glass is c ooled slowly & uniformly & the process is called annealing. *
Annealed glass is of good quality.
Different kinds of glasses & their uses:1)
Soda glass:glass:- Soft glass –
cheapest & most common form of glass.
–
Prepared by fusing soda ash, sand & lime stone.
–
Fuses at comparatively low temperature.
Disadvantage
– It is brittle & breaks easily. – Sensitive to temperature. – Sensitive to chemicals.
Uses: Used for manufacturing of window glass, mirror, common glassware. 2)
Hard glass: K2CO3 + CaCO3 (Prepared by fusing pot. Carbonate & calcium carbonate)
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Uses: Making hard glass apparatus. Advantage: More resistant to the action of acids. 3)
Lead crystal glass: Made from potassium carbonate, lead oxide & sand. Advantage: This glass has high refractive index. Uses: Used for making expensive glassware.
4)
Pyrex glass: Borosilicate glass. Made from sand, lime & borax & alkali carbonate. Advantage: Good chemical durability & thermal shock resistance. Uses:
– Making laboratory apparatus. – pharmaceutical containers – oven - ware
5)
Optical glass: Advantages: Free from stains & defects. Uses:
Making lenses for spectacles, microscopes, cameras & telescope & other
instruments. 6)
Photochromatic Photochromatic glass: Advantage: Uses:
– T emporarily emporarily darkens when exposed to bright light.
– Temporarily darkens when exposed to bright light. – Useful as Sunshield. – Used in window glasses, spectacles, glasses etc.
7)
Safety glass: Manufacturing:- Prepared by placing a layer of transparent plastic between the two layers of glass by means of a suitable adhesive. The three layers are used by the action of heat to pressure. Uses: Used in making wind screens of aeroplanes, automobiles, bullet proof glass.
8)
Glass fibres: This is the glass in the t he form of fibres. Advantage: This is an excellent heat insulator used for insulating materials in refrigerators, oven etc. * Optical fibres:fibres:- extensively used in telecommunication surgical operation etc. * Used in endoscopy to examine the internal human organs.
9)
Coloured glass: Manufacture: by adding certain colouring material, such as metallic oxides, to the molten mass. Difference addition may produce different coloured glass. * Ferric oxide → brown colour. STEPS _________________________ ______________________________________ ________________________ ______________________ ___________ th Get free chapterwise tests for Class X on www.tcyonline.com
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* Chromic oxide → green colour. * Manganese dioxide → purple colour. * Cobalt oxide → blue colour Uses: Manufacturing of fancy articles, window panes, artificial gems. STEEL: 1.
An alloy of iron & carbon. Other elements added are: Manganese, molybdenum, lungsten & several other elements. Steel industry began in 1870 in Indra, when the Bengal Iron works company set up its plant at Kulti in West Bengal.
2.
The carbon content of steel steel is intermediate b/w that of of pig iron (cast (cast iron) & wrought wrought iron. It contains 0.10 – 1.5% carbon. Figure
3.
Steel is manufactured from pig iron in a Bossemer converter, which is a pear shaped shaped furnace lined with silica or lime. Molten pig iron is introduced into the converter & a blast of hot air is passed in & the following reaction takes place. 2Mn + O2 → 2MnO Impurity Si + O2 → SiO2 Impurity 2C + O 2 → 2CO MnO + SiO2 → MnSiO3 (Slag) 4P + 5O 2 → 2P2O5 3CaO + P 2O5 → Ca3(PO4)2 (Slag) When all the carbon is completely removed, the requisite amount of carbon is added to convert iron into different varieties of steel.
Properties: The properties of steel depend upon the amount of carbon content . Mild steel contains 0.1 to 0.4 % of carbon. Hard steel contains 0.5 to 1.5 % of carbon. Quenching: Hard steel can be further hardened by heating it to red hot (1123 K) & then cooling it by plunging it into the cold water. This steel is called quenched steel.
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Tempering: If the quenched steel is reheated & allowed to cool slowly it becomes elastic & much less brittle. * Steel of any desired degree of hardness can be produced by adjusting the temperature of tempering. Annealing: Annealing: If steel is heated to bright red heat & is then cooled slowly, the process is called annealing. * Annealed Steel is Soft. TYPES OF STEEL: 1.
STEEL containing MANGANESE:Steel containing 7 – 20% manganese is very hard & tought. Uses: Used for making steel – helmets, rock crushing machinery etc.
2.
CHROMIUM AND NICKEL STEEL: Uses:
(a) Making aeroplane parts, motorcars, bicycle parts etc. (b) Scientific instruments are made if the percentage of nickel is 36. (c) Lamp bulbs & radio values are made if the percentage is 46.
3.
COBALT STEEL: contains upto 35% 35% cobalt. * Possesses exceptional magnetism. Uses: Making permanent magnets.
4.
SILICA STEEL: Upto 35% Silicon & a very little carbon is present. Uses: Making transformers & electromagnets. Silica Steel (15% Silicon) is acid resistant. Uses: Making pumps & pipes which carry acids.
5.
STEEL having 15 – 20% TUNGSTEN & a little vanadium, 5% chromium. Uses: Making drilling tools.
6.
STAINLESS STEEL: 18% chromium & Nickel is resistant to corrosion & is therefore used for making utensils & surgical instruments.
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