Foaming Capacity of Soaps investigatory projects chemistry class 12 cbse
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cbse investigatory class 12th science
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CERTIFICATE
This is to certify that Mr. Pratyush Mishra of Class XI ‘B’ has satisfactorily completed the project on “FOAMING CAPACITY OF SOAP” under the guidance of Sir Francis Xavier during the session 2009-2010. Place: D-22 RDVV UNIVERSITY JABALPUR Date: (Sir Francis Xavier)
School Stamp
ACKNOWLEDGEMENT I'd like to express my greatest gratitude to the people who have helped & supported me throughout y project. I’ m grateful to Sir Francis Xavier for his continuous support for the project, from initial advice & encouragement to this day. Special thanks of mine goes to my colleague who helped me in completing the project by giving interesting ideas, thoughts & made this project easy and accurate. I wish to thanks my parents for their undivided support & interest who inspired me & encouraged me to go my own way, without which I would be unable to complete my project. At last but not the least I want to thanks my friends who appreciated me for my work & motivated me and finally to God who made all the things possible...
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INTROD
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EXPERI
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EXPERI
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BIBLIOG
INTRODUCTION Soaps are sodium or potassium salts of higher fatty acids like stearic, palmitic and oleic acids can be either saturated or unsaturated. They contain a long hydrocarbon chain of about 10-20 carbon with one carboxylic acid group as the functional group. A soap molecule a tadpole shaped structure, whose ends have different polarities. At one end is the long hydrocarbon chain that is non-polar and hydrophobic, i.e., insoluble in water but oil soluble. At the other end is the short polar carboxylate ion which is hydrophilic i.e., water soluble but insoluble in oil and grease. Long Hydrocarbon Chain Hydrophobic end
Hydrophilic end
When soap is shaken with water it beco es a soap solution that is colloidal in nature. Agitating it tends to concentrate the s lution on the surface and causes foaming. This helps the soap molecules make a unim lecular film on the surface of water and to penetrate the fabric. The long non-polar end of a soap molecule that are hydrophobic, gravitate towards and surround the dirt (fat or oil with dust absorbed in it). The short polar end containing the carboxylate ion, face the water away from the dirt. A number of soap molecules surround or encircle dirt and grease in a clustered structure called 'micelles', which encircles such particles and emulsify them.
Cleans ng act on of soaps decreases in hard water. Hard water contains Calcium and magnes um ions which react with sodium carbonate to produce insoluble carbonates of higher fatty acids. 2C17H35COONa +Ca2+ (Water soluble)
2C17H35COONa + Mg2+ This hardness can be removed by addition of Sodium Carbonate. Ca2++ Na2CO3 Mg2++ Na2CO3
Aim: Apparatus: Materials Required: Theory:
Procedure:
CaCO3 + 2Na+ MgCO3
+ 2Na+
Observation:
Amount of each soap sample taken
Conclusions:
The soap for which the time taken for the disappearance of foam is highest has maximum foaming apacity and is the best quality soap among the soaps tested
Aim: Apparatus:
Materials Required: Theory:
Procedure:
D ssolve 0.5g of soap and dissolve it in 50 ml of distilled water.
Take three test tubes and add distilled water in first, tap water in second and third test tube. Add 5 ml of M/10 sodium carbonate to third test tube. To above test tubes add soap solutions separately. Now shake first test tubes for formation of foam. Now start the stop watch to calculate time taken for disappearance of foam. Similarly, perform the experiment with other soap solutions. Record the observations in a tabular form.
Observation:
Conclusions:
BIBLIOGRAPHY Internet : www.wikipedia.co.in www.google.co.in www.icbse.com