two different pure organic compounds may have same melting points because may be they share their nature of chemical bonds.
Generally, organic compounds have lower melting points compared to inorganic compounds due to weaker intermolecular forces such as van der Waals forces in organic compounds. Inorganic compounds tend to have higher melting points because of stronger ionic or covalent bonds between their atoms.
Coal does not have a distinct melting point because it is a heterogeneous mixture of organic compounds with varying melting points. As coal is heated, different components of the mixture will melt or decompose at different temperatures, leading to a gradual softening or liquefying of the material rather than a single melting point.
The melting point of aldehydes varies depending on the specific compound, but in general, aldehydes have lower melting points compared to other organic compounds. This is because aldehydes have weaker intermolecular forces, such as van der Waals forces, which results in lower melting points.
Paraffin is a commonly used material for determining the melting point of organic compounds because it has a well-defined melting point of 54-57°C and does not react with most organic compounds. This makes it a suitable medium for accurately measuring the melting points of various substances without interference.
Phosphate itself does not have a specific melting point as it is a general term referring to different compounds containing the phosphate ion. The melting point of specific phosphate compounds can vary widely depending on their composition.
Generally, organic compounds have lower melting points compared to inorganic compounds due to weaker intermolecular forces such as van der Waals forces in organic compounds. Inorganic compounds tend to have higher melting points because of stronger ionic or covalent bonds between their atoms.
Branched chain affect the melting point of organic compounds. Melting point of branched chain compounds become low as compared to linear chain compounds.
Actually the melting point depends on the molecule under consideration. But, in general inorganic compounds have higher melting point than organic compounds. However, there are many exceptions to this statement.
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As covalent compounds, organic compounds tend to have relatively low melting and boiling points, be non-conductive of electricity, and have lower solubility in water. They also commonly exhibit isomerism, meaning they can have the same chemical formula but different structural arrangements, leading to a wide range of diverse compounds.
Melting point is important in organic chemistry because it can be used for the identification of a compound. For pure solid organic compounds will have a small melting point range (0.5-10C),thus presence of impurity can also be find out by Melting point.
Coal does not have a distinct melting point because it is a heterogeneous mixture of organic compounds with varying melting points. As coal is heated, different components of the mixture will melt or decompose at different temperatures, leading to a gradual softening or liquefying of the material rather than a single melting point.
A mixed melting point in organic compounds occurs when two different compounds are combined, and the resulting mixture has a lower melting point than the individual components. This phenomenon is often indicative of the presence of impurities or the formation of a solid solution, which disrupts the orderly crystal lattice structure of the pure substances. Consequently, the melting point decreases due to the disruption of intermolecular forces, leading to a less stable solid form. This property is commonly used in organic chemistry to assess the purity of substances.
The melting point of aldehydes varies depending on the specific compound, but in general, aldehydes have lower melting points compared to other organic compounds. This is because aldehydes have weaker intermolecular forces, such as van der Waals forces, which results in lower melting points.
Nonmetals and most organic compounds.
Many organic compounds.
Paraffin is a commonly used material for determining the melting point of organic compounds because it has a well-defined melting point of 54-57°C and does not react with most organic compounds. This makes it a suitable medium for accurately measuring the melting points of various substances without interference.