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1.3 Physical Properties of Alkanes :

1.3.1 Physical State :

The first four members (C1 to C4) are gases : the next thirteen members, (C5 to C17) are liquids while the higher members are waxy solids.

1.3.2 Boiling points :

The boiling points of n-alkanes increase regularly with the increase in the number of carbon atoms.

Physical Properties of Alkanes | Organic Chemistry for NEET

Among the isomeric alkanes, the branched chain isomers have relatively low boiling points as compared to their corresponding straight chain isomers. Greater the branching of the chain, lower is the boiling point. This is due to the fact that branching of the chain makes the molecules more compact and brings it close to a sphere, so the magnitude of Van der Waals force decreases.

1.3.3. Melting Points:

It is evident that the increase in melting point is relatively more in moving from an alkane having odd number of carbon atoms to the higher alkane with even no. of `C' while it is relatively less in moving from an alkane with even number of carbon atoms to the higher alkane.

Explanation : The alkanes with even no. of `C' atoms are more closely packed.

Physical Properties of Alkanes | Organic Chemistry for NEET

 

1.3.4 Solubility:

In keeping with the popular rule "like dissolves like" hydrocarbons are insoluble in polar solvent like water because they are predominantly non-polar in nature.

1.3.5 Density:

The densities of alkanes increase with increasing molecular weight but become constant at about 0.8 g cm-3. This means that all alkanes are lighter than water so they floats over water.

1.4.1 Chemical Reaction of Alkanes :

Characteristic reaction of alkanes are free radical substitution reaction, these reactions are generally chain reactions which are completed mainly in three steps.

(i) chain initiation (ii) chain propagation, (iii) chain termination

Examples of free radical substitution reaction →

R - H + X2 Physical Properties of Alkanes | Organic Chemistry for NEET R - X + HX

Exp.  Physical Properties of Alkanes | Organic Chemistry for NEET

When equimolar amount of methane and Cl2 are taken, a mixture of four possible products are formed, but if we take excess of CH4 then yield of CH3Cl will be the major product.

Reactivity of X2 : F2 > Cl2 > Br2 > I2

Reactivity of H : 3ºH > 2ºH > 1ºH

Alkanes reacts so vigorously with Fthat, even in the dark and at room temp, reactant diluted with an inert gas.

Iodination is a reversible reaction since HI formed as a by-product is a strong reducing agent and reduces alkyl iodide back to alkane. Hence iodination can be done only in presence of strong oxidizing agent like HIO3, HNO3 or HgO.

R - H + I2 Physical Properties of Alkanes | Organic Chemistry for NEET R - I + HI

HI + HIO3 Physical Properties of Alkanes | Organic Chemistry for NEET H2O + I2

Mechanism of halogenation of CH4

(i) Chain initiation → It is an endothermic step.

X2 Physical Properties of Alkanes | Organic Chemistry for NEET Physical Properties of Alkanes | Organic Chemistry for NEET

(ii) Chain propagation → 

Physical Properties of Alkanes | Organic Chemistry for NEET

(iii) Chain termination → It is always exothermic.

Physical Properties of Alkanes | Organic Chemistry for NEET

Each photon of light leaves one chlorine molecule to form two chlorine radicals, each chlorine atom starts a chain and on an average each chain contains 5000 repetitions of the chain propagating cycle so about 10,000 molecules of CH3Cl are formed by one photon of light.

Some reagent affects the rate of halogenation: 

For example:

Q.3 In the given ways which is feasible

Physical Properties of Alkanes | Organic Chemistry for NEET

Q.4 Which of the following reaction has zero activation energy

(A) Physical Properties of Alkanes | Organic Chemistry for NEET 

(B) Cl2 Physical Properties of Alkanes | Organic Chemistry for NEET 2 Cl

(C) Physical Properties of Alkanes | Organic Chemistry for NEET 

(D) Physical Properties of Alkanes | Organic Chemistry for NEET

Q.5 If the Eact for a forward reaction is given

Physical Properties of Alkanes | Organic Chemistry for NEET Physical Properties of Alkanes | Organic Chemistry for NEET

the Eact for backward reaction will be

(A) 1 kcal

(B) 4 kcal

(C) -4 kcal

(D) 3 kcal

Halogenations of higher alkanes:

(i)

 Physical Properties of Alkanes | Organic Chemistry for NEET

(ii) 

Physical Properties of Alkanes | Organic Chemistry for NEET


 

(iii)

 Physical Properties of Alkanes | Organic Chemistry for NEET

(iv)

 Physical Properties of Alkanes | Organic Chemistry for NEET

(v)

 Physical Properties of Alkanes | Organic Chemistry for NEET

 

Relative amounts of the various isomers differ remarkably depending upon the halogen used from the above reaction, it is observed that chlorination gives mixture in which no isomer greatly dominates while, bromination gives mixture in which one isomer dominates greatly (97% - 99%).

Factors determining the relative yields of the isomeric products.

(i) Probability factor → This factor is based on the number of each kind of H atom in the molecule.

(ii) Reactivity of hydrogen → The order of reactivity is 3º > 2º > 1º

1.4.2 Aromatisation:

Physical Properties of Alkanes | Organic Chemistry for NEET

Physical Properties of Alkanes | Organic Chemistry for NEET

 

Physical Properties of Alkanes | Organic Chemistry for NEET

1.4.3 Combustion : (i.e. complete oxidation)

Physical Properties of Alkanes | Organic Chemistry for NEET O2 Physical Properties of Alkanes | Organic Chemistry for NEET nCO + (n+1) H2O (DHcombustion = -ve)

Physical Properties of Alkanes | Organic Chemistry for NEET O2 Physical Properties of Alkanes | Organic Chemistry for NEET xCO2   + Physical Properties of Alkanes | Organic Chemistry for NEET H2O

C5H12  + 8O2 Physical Properties of Alkanes | Organic Chemistry for NEET 5CO2  + 6H2O

Heat of combustion: Amount of heat i.e. liberated when 1 mole of hydrocarbon is completely burnt into CO2 & H2O.

Heat of combustion as a measure of stability of alkane :

Combustion is used as a measurement of stability.

More branched alkanes are more stable and have lower heat of combustion.

e.g. (I) CH3 - CH2 - CH2 - CH3 
(II) Physical Properties of Alkanes | Organic Chemistry for NEET

stability : II > I

DHcomb. : I > II

More branched alkane has more no. of primary C - H bonds. (therefore it has more bond energy).

Homologous : Higher homologous have higher heat of combustion.

Isomers : Branched isomer has lower heat of combustion.

(i) Initiators → They initiate the chain reaction. Initiators are R2O2, Perester's etc.

R - O - O - R Physical Properties of Alkanes | Organic Chemistry for NEET

Physical Properties of Alkanes | Organic Chemistry for NEET

(ii) Inhibitors → A substance that slow down or stop the reaction are known as inhibitors. For example, O2 is a good inhibitor.

Physical Properties of Alkanes | Organic Chemistry for NEET

All reactive alkyl free radicals are consumed so reaction stops for a period of time.

Relative reactivity of halogen toward methane→ 

Order of reactivity is F2 > Cl2 > Br2 > I2 which can be explained by the value of ΔH (energy change).

Steps of halogenation, value of ΔH for each step. (Kcal/mole)

Physical Properties of Alkanes | Organic Chemistry for NEET

Ex.3 Explain why the chain initiating step in thermal chlorination of CH4 is

Cl2 Physical Properties of Alkanes | Organic Chemistry for NEET and not CH4 Physical Properties of Alkanes | Organic Chemistry for NEET

Ans. Because Eact of Cl2 is less than Eact of CH4.

 

Physical Properties of Alkanes | Organic Chemistry for NEET

Ex.4 Chlorination of CH4 involves following steps :

(i) Physical Properties of Alkanes | Organic Chemistry for NEET

(ii) Physical Properties of Alkanes | Organic Chemistry for NEET

(iii) Physical Properties of Alkanes | Organic Chemistry for NEET

Which of the following is rate determining?

(A) Step (i)

(B) Step (ii)

(C) Step (iii)

(D) Step (ii) and (iii) both

Ans. (B)

Reactivity of hydrogen Physical Properties of Alkanes | Organic Chemistry for NEET 3º > 2º > 1º

Because formation of alkyl free radical is Rate determining step so, as H is more reactive which produce more stable free radical (less Eact).

order of stability of Free Radical.→

Physical Properties of Alkanes | Organic Chemistry for NEET

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FAQs on Physical Properties of Alkanes - Organic Chemistry for NEET

1. What are the physical properties of alkanes?
Ans. Alkanes are a type of hydrocarbon compound that exhibit several physical properties. They are typically colorless, odorless, and insoluble in water. Alkanes have low boiling points and are less dense than water. They are also nonpolar, meaning they do not have a charge separation and do not readily dissolve in polar solvents.
2. How does the number of carbon atoms in an alkane affect its physical properties?
Ans. The physical properties of alkanes are influenced by the number of carbon atoms in the molecule. As the number of carbon atoms increases, the boiling point and melting point of alkanes generally increase. This is because longer carbon chains have more surface area for intermolecular forces to act upon, resulting in stronger attractions between molecules.
3. Can alkanes conduct electricity?
Ans. No, alkanes cannot conduct electricity. This is because they are nonpolar molecules and do not have any charged particles that can carry an electric current. Additionally, alkanes do not dissociate into ions in solution, further preventing the flow of electricity.
4. Are alkanes flammable?
Ans. Yes, alkanes are flammable. Due to their high carbon and hydrogen content, alkanes can undergo combustion reactions when exposed to a flame or spark. They react with oxygen in the air to produce carbon dioxide and water, releasing a significant amount of heat in the process.
5. How does the branching of alkane molecules affect their physical properties?
Ans. The branching of alkane molecules can greatly impact their physical properties. Branched alkanes have lower boiling points and melting points compared to their straight-chain counterparts. This is because branching disrupts the regular packing of molecules, reducing the surface area available for intermolecular forces. As a result, branched alkanes have weaker attractions between molecules and require less energy to break these forces.
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