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Chemistry is the study of elements present in the universe which involves the nature of the elements, their occurrence, their physical and chemical properties, their compounds, reactivity, uses and applications. Ancient samskrit literary works supported by the archaeological excavations all over the nation have proved the development of this science as early as the vedic period. The earliest evidence of chemical knowledge possessed by the ancient Indians in the  prehistoric age has been brought to light by the findings of archaeological excavations in Baluchistan, Sindh and Punjab. The ruins of the Indus Valley Civilization that have been unearthed at in these areas furnish much information about the chemical knowledge acquired by the Indus Valley people, particularly with reference to the practical arts like pottery, brick-making, and extraction and working of metals.<ref name=":1">Ray, P. (1956) ''History of Chemistry in Ancient and Medieval India, incorporating the History of Hindu Chemistry by Acharya Prafulla Chandra Ray.'' Calcutta: Indian Chemical Society</ref>

Chemistry is the study of elements present in the universe which involves the nature of the elements, their occurrence, their physical and chemical properties, their compounds, reactivity, uses and applications. Ancient samskrit literary works supported by the archaeological excavations all over the nation have proved the development of this science as early as the vedic period. The earliest evidence of chemical knowledge possessed by the ancient Indians in the  prehistoric age has been brought to light by the findings of archaeological excavations in Baluchistan, Sindh and Punjab. The ruins of the Indus Valley Civilization that have been unearthed at in these areas furnish much information about the chemical knowledge acquired by the Indus Valley people, particularly with reference to the practical arts like pottery, brick-making, and extraction and working of metals.<ref name=":1">Ray, P. (1956) ''History of Chemistry in Ancient and Medieval India, incorporating the History of Hindu Chemistry by Acharya Prafulla Chandra Ray.'' Calcutta: Indian Chemical Society</ref>

The findings testify to the facts that the people in the remote ages were acquainted with the art of making painted potteries as well as with the preparation and working of metallic copper. Prafulla Chandra Ray was a renowned researcher of chemistry, who set up several chemical industries in Bengal and is regarded as the "Father of Indian Chemistry" in modern times.

The findings testify to the facts that the people in the remote ages were acquainted with the art of making painted potteries as well as with the preparation and working of metallic copper. Prafulla Chandra Ray was a renowned researcher of chemistry, who set up several chemical industries in Bengal and is regarded as the "Father of Indian Chemistry" in modern times.

 

One must bear in mind that it is not just India, but several cultures, including non-western cultures around the world that have made several interesting innovations in the fields of chemistry and other subjects. However the present matter pertains to progress of Bharat in several areas of shastras and hence the attention is to bring such lesser known events to readers knowledge.

== Introduction ==

== Introduction ==

Chemistry dealt primarily with the composition and changes of matter and the underlying principles were deduced in a systematic and logical way purely based on thoughts with little or no experimental proofs. Yet many such theories, the products of intellectual perfection and sublime intuition, stand in good comparison with some of the most recent and advanced scientific ideas of the present time. Here we come across a few ancient concepts with particular reference to srshti (theories of cosmogenesis) and origin of jagat (universe) with respect to matter and particles and their connection with chemistry.

Chemistry dealt primarily with the composition and changes of matter and the underlying principles were deduced in a systematic and logical way purely based on thoughts with little or no experimental proofs. Yet many such theories, the products of intellectual perfection and sublime intuition, stand in good comparison with some of the most recent and advanced scientific ideas of the present time. Here we come across a few ancient concepts with particular reference to srshti (theories of cosmogenesis) and origin of jagat (universe) with respect to matter and particles and their connection with chemistry.

* Rig veda (10.121.1) mentions Hiranyagarbha reflecting the concept of cosmic egg and origin of universe from an egg.

* Rig veda (10.121.1) mentions Hiranyagarbha reflecting the concept of cosmic egg and origin of universe from an egg.

* Chandogya Upanishad mentions about expansion of universe from an embryonic stage

* Chandogya Upanishad mentions about expansion of universe from an embryonic stage called "Anda" (Chan. Upan. 3.19) wherein after period of one year, it burst open into two halves, one of silver and the other of gold. The lower half of silver became earth and the golden half became the sky and higher regions.

* Samkhya siddhanta (supported by Yoga sutras of Patanjali) describes the principles of conservation, transformation and dissipation of energy. Additionally the conception of space (desha) and time (Kala) are also discussed.

* Samkhya siddhanta (supported by Yoga sutras of Patanjali) describes the principles of conservation, transformation and dissipation of energy. Additionally the conception of space (desha) and time (Kala) are also discussed.

* Vaiseshika siddhanta propounded the particulate theory of matter ([[Padarthas (पदार्थाः)|Padarthas)]] to describe the nature of different substances that make up this jagat.

* Vaiseshika siddhanta propounded the particulate theory of matter ([[Padarthas (पदार्थाः)|Padarthas)]] to describe the nature of different substances that make up this jagat.

Chemical analysis revealed, just like in the case of pottery, that colouring agents were obtained from the metallic ores. Different chemicals added to them finally led to attribute different shades of colours and glazes to the glass objects. Coloured glass was prepared by mixing silicates of soda, lime and appropriate metallic oxides<ref>Jaggi, O.P. (1977) ''Science and Technology in Ancient India, New Delhi. Vol I'', p.203</ref>. Copper oxide, iron oxide, manganese oxides were generally used to give colours to the glass articles as for pottery. A special type of glass beads of 350 A.D. to 750 A.D. found at Ahicchatra is of gold foil glass. Layers of gold foils were poured in between two glass layers. All these prove that craftsmen in ancient India were highly skillful in the sophisticated technique of using metallic ores and chemicals as pigments in colouring very high temperature melting media like glass.

Chemical analysis revealed, just like in the case of pottery, that colouring agents were obtained from the metallic ores. Different chemicals added to them finally led to attribute different shades of colours and glazes to the glass objects. Coloured glass was prepared by mixing silicates of soda, lime and appropriate metallic oxides<ref>Jaggi, O.P. (1977) ''Science and Technology in Ancient India, New Delhi. Vol I'', p.203</ref>. Copper oxide, iron oxide, manganese oxides were generally used to give colours to the glass articles as for pottery. A special type of glass beads of 350 A.D. to 750 A.D. found at Ahicchatra is of gold foil glass. Layers of gold foils were poured in between two glass layers. All these prove that craftsmen in ancient India were highly skillful in the sophisticated technique of using metallic ores and chemicals as pigments in colouring very high temperature melting media like glass.

==== Chemistry in Minerals and Metals ====

=== Chemistry in Minerals and Metals ===

Many processes involved in extraction of metals from ores to their purification deal with the advanced knowledge of chemistry. Many ancient scientists (rshis) had is knowledge.

Many processes involved in extraction of metals from ores to their purification deal with advanced knowledge of chemistry. Many ancient and medieval texts reveal that people had this knowledge as outlined below.<ref name=":2" /><ref name=":4" />

[[File:Zawar Zinc Retorts.png|thumb|Zawar Zinc Mines in Rajasthan. Production of metallic zinc by Tiryakpatana yantra. ]]

[[File:Zawar Zinc Retorts.png|thumb|Zawar Zinc Mines in Rajasthan. Production of metallic zinc by Tiryakpatana yantra. ]]

* [[Rasashastra (रसशास्त्रम्)|'''Rasashastra''']]: The development of Rasashastra took place with regards to the processing and the use of heavy metals such as mercury, metals, minerals and many of their compounds for alchemical as well as therapeutic purposes. Many new methods/procedures/techniques for the treatment of mercury, metals/minerals were developed to convert these into pharmaceutically most suitable forms/compounds which are non-toxic, highly absorbable and most effective in therapeutics. Alchemical experiments (Lohavedha) were initially explored to remove poverty from the world by the monk of Buddhist order, Nagarjuna and his followers.<ref>Joshi, Damodar. (1997) ''History of Technology in India, Vol. 1, From Antiquity to c. 1200 A.D. by A. K. Bag.'' New Delhi: Indian National Science Academy. (Chapter Mercurial and Metallic Compunds: Page 256)</ref>

* [[Rasashastra (रसशास्त्रम्)|'''Rasashastra''']]: The development of Rasashastra took place with regards to the processing and the use of heavy metals such as mercury, metals, minerals and many of their compounds for alchemical as well as therapeutic purposes. Many new methods/procedures/techniques for the treatment of mercury, metals/minerals were developed to convert these into pharmaceutically most suitable forms/compounds which are non-toxic, highly absorbable and most effective in therapeutics. Alchemical experiments (Lohavedha) were initially explored to remove poverty from the world by the monk of Buddhist order, Nagarjuna and his followers.<ref>Joshi, Damodar. (1997) ''History of Technology in India, Vol. 1, From Antiquity to c. 1200 A.D. by A. K. Bag.'' New Delhi: Indian National Science Academy. (Chapter Mercurial and Metallic Compunds: Page 256)</ref>

* '''Zinc Technology''': The Zawar zinc technology produced high-zinc (28%) brass alloy not produced anywhere else in the rest of the world. It is the earliest firm evidence for production of metallic zinc in the world. The zinc retorts found in Zawar were similar to those described in Rasaratnasamucchyaa and by Nagarjuna in his Rasaratnakara. The text gives details of the distillation process of zinc by tiryakpatanayantra (distillation by descending) which is totally an ingenious method where the zinc vapor formed after smelting zinc ore (in specifically designed retorts with condensers and furnaces) could be drastically cooled down to get a melt that could solidify to zinc metal.<ref name=":4">Srinivasan, Sharada and Ranganathan, Srinivasa. (2013) ''[http://eprints.nias.res.in/374/1/B8-2013%20Minerals%20and%20Metals%20Heritage%20of%20India.pdf Minerals and Metals Heritage of India.]'' Bangalore:National Institute of Advanced Studies.</ref>

* '''Zinc Technology''': The Zawar zinc technology produced high-zinc (28%) brass alloy not produced anywhere else in the rest of the world. It is the earliest firm evidence for production of metallic zinc in the world. The zinc retorts found in Zawar were similar to those described in Rasaratnasamucchyaa and by Nagarjuna in his Rasaratnakara. The text gives details of the distillation process of zinc by tiryakpatanayantra (distillation by descending) which is totally an ingenious method where the zinc vapor formed after smelting zinc ore (in specifically designed retorts with condensers and furnaces) could be drastically cooled down to get a melt that could solidify to zinc metal.<ref name=":4">Srinivasan, Sharada and Ranganathan, Srinivasa. (2013) ''[http://eprints.nias.res.in/374/1/B8-2013%20Minerals%20and%20Metals%20Heritage%20of%20India.pdf Minerals and Metals Heritage of India.]'' Bangalore:National Institute of Advanced Studies.</ref>

* '''Bidri Alloy''': The alloy produced in the South Indian town of Bidar, contained Zinc (76-98%), Copper (2-10%), at times Lead (1-8%), tin (1-5%) and trace of Iron. Darkening of the Bidriware made was done by applying a paste of ammonium chloride, potassium nitrate, sodium chloride and copper sulphate. Several impressive vessels, ewers, pitchers, vessels and huqqa bases were made of bidri ware with patterns influenced by the fine geometric and floral patterns and inlayed with gold and silver metals.  

* '''Bidri Alloy''': The alloy produced in the South Indian town of Bidar, contained Zinc (76-98%), Copper (2-10%), at times Lead (1-8%), tin (1-5%) and trace of Iron. Darkening of the Bidriware made was done by applying a paste of ammonium chloride, potassium nitrate, sodium chloride and copper sulphate. Several impressive vessels, ewers, pitchers, vessels and huqqa bases were made of bidri ware with patterns influenced by the fine geometric and floral patterns and inlayed with gold and silver metals.  

== References ==

== References ==

[[Category:Shastras]]

[[Category:Shastras]]

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