Abstract Indian civilization has a long recorded history of scientific culture that goes back to more than 5000 years. Indian heritage has been known for its various developments like gemstone therapy, Ayurveda medicine, physics, farming, literature and many more. Technology is transforming Indian cultural heritage preservation and identity by using AI, 3D scanning, and digital platforms for documentation, virtual reconstruction, and immersive public engagement;Most of the developments are covered from the time of ancient India. It is only the heritage of India that has led to current advancements in science and technology. Many famous mathematicians from India contributed a lot in the development of theories that we still use and applied in majority of fields. Indian civilization has a long recorded history of scientific culture that goes back to more than 5000 years. Indian heritage has been known for its various developments like gemstone therapy, Ayurveda medicine, physics, farming, literature and many more. Most of the developments are covered from the time of ancient India. It is only the heritage of India that has led to current advancements in science and technology this technique was not short-lived either. In the eleventh century, a much larger iron pillar was forge-welded and now lies free of rust in two or three pieces at Dhar in Central India. The countries are strongly encouraged to commit to contribute resources for adaptation and to cancel Internationally Transferred Mitigation Outcomes to deliver an overall mitigation in global emissions. These measures will further help in achieving emission reductions globally in the 13th century; several iron beams were fabricated for use in constructing the temples at Puri and Konark in Orissa. The Iron Pillar of Delhi, however, remains unparalleled. Even in 1881, British economic geology-gist Ball recorded: It is not many years since the production of such a pillar would have been impossibility in the largest foundries of the world, and even now there are comparatively few places where a similar mass of metal could be turned out.
Shankar. K. Hugar (Sat,) studied this question.