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Theory & Procedure, Melting point of an Organic compound | Additional Study Material for NEET PDF Download

Our Objective

Our objective is to determine the melting point of an organic compound.

The Theory

What is the importance of knowing the melting point of organic compounds?

The melting point is an important physical property of a compound. The melting point can be used to identify a substance and as an indication of its purity. The melting point of solid is defined as the temperature at which the solid exists in equilibrium with its liquid under an external pressure of one atmosphere.

A pure crystalline compound usually possesses a sharp melting point and it melts completely over a narrow range of temperature of not more that 0.5-1oC. The presence of even small amount of impurities usually produces a depression in the freezing points and shows a marked increase in the width of the melting point range. The melting point range of > 5oC indicates that the substance is impure. For a material whose identity is known, an estimate of degree of purity can be made by comparing its melting point with that of  a pure sample. 

What are the factors that affect the melting point? 

 1. Size of the molecule

Melting point is also used for the identification and characterisation of a compound. If the melting point of two pure samples shows a clear difference in melting points, it indicates that the two compounds must have different structural arrangements. or they must have different arrangements of atoms or configurations. If two materials have the same melting point, then they may (not necessarily) have the same structure.

Consider the isomers n-butanol and t-butanol. Both have the same molecular formula (C4 H10O), but differ in their structure. 

Theory & Procedure, Melting point of an Organic compound | Additional Study Material for NEET

2. Force of attraction between the molecules

The force of attraction between the molecules affects the melting point of a compound. Stronger intermolecular interactions result in higher melting points. Ionic compounds usually have high melting points because the electrostatic forces holding the ions (ion-ion interaction) are much stronger. In organic compounds the presence of polarity, or especially hydrogen bonding, generally leads to higher melting point.

Consider the following examples.  

Theory & Procedure, Melting point of an Organic compound | Additional Study Material for NEET

The only force of attraction between butane molecules is weak Van der Waals force of attraction, so it has very low melting point. But in the case of methyl propionate, because of the presence of polar C – O group, the molecules are held together by dipole-dipole interaction. Therefore, its melting point is greater than that of butane. In the case of  butyric acid, the molecules are held together by hydrogen bonding, so it has a higher melting point. The melting point of sodium butanoate is higher than that of butyric acid because the attractive force in sodium butanoate is strong ionic interation. 

 Melting point of some common organic compounds 

CompoundMelting Point (oC)CompoundMelting Point (oC)

Phenol
42
α-Naphthylamine
50
α-Naphthol
96
Acetamide
82
β-Naphthol
123
Benzamide
128
Oxalic Acid
101
Urea
132
Benzoic Acid
122
Fructose
103
Cinnamic Acid
133
Glucose
146
p-Toludine
43
Sucrose
186
Naththalene
80
Acetanilide
114.3

Learning outcomes

  •  Students understand the term ‘melting point’ through this experiment.
  •  Students will able to do the experiment in the real lab quicker and more accurately after they understand the steps.
  •  Students understand that the melting point of a solid is a constant value. 

Materials Required

Theory & Procedure, Melting point of an Organic compound | Additional Study Material for NEET

The Procedure

Real lab procedure

  • First powder the crystalline substance.
  • Take a capillary tube and seal one end by heating it.
  • Fill the capillary tube with the substance. To fill the tube, make a heap of the powdered substance on the porous plate. Push one end of the capillary tube into the heap. Some of the substance will enter the capillary tube.
  • Now tap the sealed end of the capillary tube on the porous plate gently. Fill the capillary tube upto 2-3 mm.
  • Attach the capillary tube to a thermometer using a thread.
  • Take liquid paraffin in a beaker and place it over a piece of wire gauze placed over a tripod stand.
  • Clamp the thermometer carrying the test tube to an iron stand and immerse them in the bath of liquid paraffin. The surface tension of the bath liquid is sufficient to hold the capillary tube in position.
  • Heat the beaker slowly while constantly stirring the contents using a stirrer to maintain a uniform temperature throughout.
  • When the temperature is within 15o of the melting point of the pure substance, the flame is reduced. Then the temperature rises slowly.
  • Note the temperature (t1) when the substance starts melting.
  • Again note the temperature (t2) when the substance has completely melted.
  • The average of the two readings gives the correct melting point of the substance.

Simulator Procedure (as performed through the Online Labs)

  • You can select the compound from the ‘Select the compound’ drop down list.
  • To start the experiment, click on the 'Start' button.  You can also see the zoomed view of the compound and the thermometer.
  • Now turn on the burner by clicking on the ‘Knob’ of the burner.
  • The temperature begins to rise.
  • Note the temperature ‘t1’ at which the compound starts melting.
  • Similarly note the temperature ‘t2’ at which the compound has completely melted.
  • Enter the values in the respective text boxes.
  • The melting point of the compound is shown in the corresponding text box.
  • You can select the actual compound from the ‘Select the actual compound’ drop down list.
  • You can verify your result by clicking on the ‘Show chart’ button.
  • To redo the experiment, click on the ‘Reset’ button. 

Observations

Record your observations in the table given below.

Note the temperature when the substance;
Melting point of the given substance (t1 + t2 / 2 (oC)
Starts melting t1(0C)
Has completely melted t2(0C)
 
 
 


Inference

Melting point of the given substance = ... oC

Precautions

  • Use dry and powdered sample for the determination of melting point.
  • Keep the lower end of the capillary tube and the thermometer at the same level.
  • Packing of the powder should be uniform without any large air gaps in between the solid particles.
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FAQs on Theory & Procedure, Melting point of an Organic compound - Additional Study Material for NEET

1. What is the theory behind the melting point of an organic compound?
Ans. The theory behind the melting point of an organic compound is that it is influenced by the strength and type of intermolecular forces present in the compound. Compounds with strong intermolecular forces tend to have higher melting points, while compounds with weak intermolecular forces have lower melting points.
2. What is the procedure to determine the melting point of an organic compound?
Ans. The procedure to determine the melting point of an organic compound involves packing a small amount of the compound into a capillary tube, which is then placed in a melting point apparatus. The temperature is slowly increased, and the point at which the compound starts to melt and completely liquefies is recorded as the melting point.
3. How is the melting point of an organic compound useful in its identification?
Ans. The melting point of an organic compound is useful in its identification because it is a characteristic property. Comparing the experimental melting point of a compound to its known literature value can help confirm its identity. If the observed melting point differs significantly from the expected value, it may indicate impurities or a different compound.
4. What are some factors that can affect the melting point of an organic compound?
Ans. Some factors that can affect the melting point of an organic compound include the presence of impurities, the rate of heating, and the sample size. Impurities can lower the melting point and broaden the melting range. Rapid heating can lead to inaccurate results. A larger sample size may require higher temperatures to fully melt.
5. How does the melting point of an organic compound relate to its purity?
Ans. The melting point of an organic compound is directly related to its purity. A pure compound will exhibit a sharp and narrow melting point range, whereas impurities will cause the melting point to be lower and the range to widen. Therefore, by analyzing the melting point, one can assess the purity of a given organic compound.
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