11th chemistry chapter 1st (Some basic concepts of chemistry) full chapter notes

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 Mp board 11th  chemistry chapter 1st (Some basic concepts of chemistry) 

By _Vikas Lodhi 


CLASS - 11TH CHEMISTRY 


 UNIT 1: SOME BASIC CONCEPTS OF CHEMISTRY 

Key terms 

I. Classification of Substances 

II. SI Base units & Significant figures

III. Laws of Chemical Combination

IV. Mole Concept 

V. Concentration Terms


TERM 1. Classification of Substances



  1.    

TERM 2. SI Base units & Significant figures


Rules for determining the number of significant figures 

i) All non-zero digits are significant 

ii) Zeros preceding the first non-zero digit are not significant 

iii) Zeros between two non-zero digits are significant. 

iv) Zeros at the end or right of the number are significant provided they are on the  right side of      the decimal point. But, if otherwise, the zeros are not significant.


TERM 3. Laws of Chemical Combination


a) Law of conservation of Mass [ Antoine Lavoisier]

MassReactant + MassReactant = MassProduct = MassProduct

 

Activity : Melting Ice –

  •  Place a glass measuring cup of water, with a chunk of floating in it. 

  •  Point out the fact that most of the ice sits under the water, and only a small amount sticks up, above the surface. 

  •  Ask the students , what they thought was going to happen to the level of water, in the bowl, as the ice melted. 

  • Would the water level rise, stay the same, or go down ? 

  • They all will guess the water level would rise. 

  •  Wait & watch 

  •  After the ice melts completely , students can verify the Law of Conservation of Mass.


b) Law of definite proportion [Joseph Proust] – A given compound always contains elements in a certain proportion by mass. 

Investigative activity 

Apparatus -  0.1 M silver nitrate,  0.1 M sodium chloride,  0.1 M lead nitrate, 0.1 M sodium iodide 

0.1 M iron (III) chloride,  0.1 M sodium hydroxide, 9 large test tubes & 3 pipettes 

Reactions to be performed

 Reaction 1: Prepare three test tubes with 5 ml, 10 ml and 15 ml of silver

nitrate respectively. Using a clean pipette add 5 ml of sodium chloride to

each one and observe what happens. 

 Reaction 2: Prepare three test tubes with 5 ml, 10 ml and 15 ml of lead

nitrate respectively. Using a clean pipette add 5 ml of sodium iodide to each

one and observe what happens. Write a balanced equation for this reaction. 

 Reaction 3: Prepare three test tubes with 5 ml, 10 ml and 15 ml of sodium

hydroxide respectively. Add 5 ml of iron(III) chloride to each one and

observe what happens. 

Observation & Conclusion

Regardless of the amount of reactants added, the same products, with the same

compositions, are formed (i.e. the precipitate observed in the reactions). However,

if the reactants are not added in the correct ratios, there will be unreacted

reactants that will remain in the final solution, together with the products formed.

C) Law of Multiple Proportion [ John Dalton ]

When the same two elements combine to form more than one compound, the ratios of

the mass of one element in the first compound to its mass in the second compound, (as it

combines with the same mass of the other element), can always be expressed as ratios of

small whole numbers( ex: 1:3 or 2:5). 

For example Hydrogen and Oxygen combine to form water H2O and hydrogen peroxide

H2O2

Two atoms of hydrogen combine with one atom of oxygen in the case of water, while two

atoms of hydrogen combine with two atoms of oxygen in the case of hydrogen peroxide.

The ratio of oxygen atoms combining with a fixed number of hydrogen atoms in these two

compounds is 1:2. 

In terms of masses also, every 2.016 g of hydrogen ( g.at. mass of hydrogen is 1.008g)

combines with 15.999 g of oxygen to form water and 31.998g of oxygen to form hydrogen

peroxide. Hence the ratio is 15.999 : 31.998 or 1:2 which is a simple ratio.

D) Avogadro’s Law : “equal volumes of all gases under the same conditions of

pressure and temperature contain the same number of molecules." 

At standard temperature and pressure, 1 mole of the gas will occupy 22.4L and will contain 6.022 x 1023 particles of the matter. “At STP 6.022 x 1023 particles of any gas will occupy 22.4L”

The Avogadro constant is named after the early nineteenth century Italian scientist Amedeo Avogadro.                                                                      


E) Gay Lussac’s Law : 

Gay-Lussac's law is an ideal gas law where at constant volume, the pressure of anideal

gas is directly proportional to its absolute temperature. Pi/Ti = Pf/Tf

where  Pi = initial pressure, Ti = initial temperature, Pf = final pressure, Tf = final temperature 

The volume of gases taking part in a chemical reaction show simple whole number ratios

to one another when those volumes are measured at the same temperature and pressure.


TERM 4. Mole Concept

The mole (mol) is the amount of a substance that contains as many elementary entities as

there are atoms in exactly 12.00 grams of 12C

GRAM MOLECULAR MASS 

Gram molecular mass is the mass in grams of one mole of a molecular substance. 

Ex: The molecular mass of N2 is 28, so the gram molecular mass of N2 is 28 g. 


ATOMIC MASS UNIT

An atomic mass unit or amu is one twelfth of the mass of an unbound atom of carbon-12. It is a 

unit of mass used to express atomic masses and molecular masses.

Also Known As: Unified Atomic Mass Unit (u).

TERM 5. Concentration terms


MOLARITY tells us the number of moles of solute in exactly one liter of a solution. (Note

that molarity is spelled with an "r" and is represented by a capital M.) 

We need two pieces of information to calculate the molarity of a solute in a solution: 

  •  The moles of solute present in the solution. 

  •  The volume of solution (in liters) containing the solute.

To calculate molarity we use the equation:

           

MOLALITY is the number of moles of solute dissolved in each kilogram of solvent. The unit

for molality is a lower case m. Molality is used when the temperature varies during an

experiment. Molarity will change slightly as the temperature changes because volume

changes with temperature. The mass and moles in molality do not change with

temperature. The equation for molality is: 

MOLE FRACTION is the number of moles of one component divided by the total number of

moles in solution. This concentration is similar to pph, but is based on moles instead of

grams. There is no unit for mole fraction. The equation for mole fraction is :

                       






                § THANKS FOR READING §

        ©Copyright Venus bhatnagar science Institute indore( m.p) 


Address :[Kalam House]  6,stadium ground Nanda Nagar indore mp. 

     [Bose House] Puneet-pawan apartment slice A sector B scheme no.78 vijay nagar indore mp. 


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