Camphor Formula

Camphor Formula

Carbon is a nonmetallic, tetravalent element that is extremely useful to humans. Its name is derived from the Latin word carbo, which signifies charcoal or ember. Carbon, while accounting for only 0.025% of the earth’s crust and 0.03% of the atmosphere, is extremely important to humanity. The amount of carbon in the earth’s core and atmosphere is tremendous. Carbon’s capacity to form polymers at normal temperatures explains why it is found in all living organisms. Limestone, dolomite, and other minerals are the most abundant sources of inorganic carbon.

Camphor Formula Structure

It’s a combustible, translucent, waxy material that has a pungent fragrance. The chemical formula for camphor is C6H16O. It is taken from the Camphor Laurel tree. Camphor Laurel is an evergreen tree found in the forests of Eastern Asia. Camphor basil is a primary source of camphor throughout Asia. Camphor may be synthesised from turpentine oil. It is mostly used for its odour, as tropical medicine, and in some religious rites.

Properties Of Camphor

Physical properties of Camphor

The molecular formula is C6H16O. Most often it is seen as a white, waxy solid. The molecular weight of camphor is around 154 amu. The density of camphor is 0.992. Camphor has a pungent aromatic aroma and smells like insect repellent.

Chemical Properties of Camphor

The boiling point of camphor is about 177°C and the melting point of camphor is 2090°C and is soluble in oil and ethanol, but not in water. When camphor reacts with bromine in the presence of sulfuric acid, it is brominated to form (+)-9-bromocamphor and (-)-9-bromocamphor.

Production Of Camphor

  • Trees naturally generate camphor, which is then processed for commercial usage.
  • Camphor was created by methylation using methyl iodide and a sophisticated reduction technique.
  • Camphor can be derived from alpha-pinene. It is found in coniferous plants.

Uses Of Camphor

It is a flammable, clear, waxy solid with a strong odour. The chemical formula of camphor is C6H16O which is extracted from the camphor tree. Camphor Laurel is an evergreen tree native to the forests of East Asia. Camphor basil is an important source of camphor in Asia. Camphor can be synthesised from turpentine oil. It is used primarily for its fragrance, as a tropical medicine, and in some religious ceremonies.

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FAQs (Frequently Asked Questions)

1. What is camphor?

It’s a waxy material that has a distinct fragrance. It’s combustible and translucent. The chemical formula for camphor is C6H16O. It may be found in some laurel plants. Camphor laurel is an evergreen tree found in the forests of Eastern Asia. It is derived from the wood of the camphor laurel tree.

 

2. What may camphor be used for? Does it have any analgesic properties?

It is a key component in many lotions and rubs used to relieve pain caused by bug bites, cold sores, small burns, and other conditions. It serves certain religious objectives. It is occasionally used as a food additive to improve the flavour of foods.

3. What distinguishes Camphor in terms of chemical properties?

Camphor’s boiling point is around 177 o C. When camphor combines with bromine in the presence of sulfuric acid, it undergoes bromination, yielding (+)-9-bromocamphor and (-)-9-bromocamphor.