Significance of Varahaputa
Varahaputa is an incineration method recognized in Science for preparing Bhasma, which involves exposing materials to extremely high temperatures, reaching up to 580 degrees Celsius. This process is essential for transforming specific substances into a fine ash, known as Bhasma, which is significant in traditional practices. The high-temperature technique ensures the efficacy and purity of the final product, making Varahaputa an important methodology in the context of material preparation.
The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.
Hindu concept of 'Varahaputa'
Varahaputa in Hinduism describes a controlled heating method, similar to Laghu Puta, crucial in preparing Bhasmas, particularly Swarnamakshika Bhasma. It is a specific technique, vital in the Marana process, and its application and number of repetitions are important for desired outcomes.
From: Journal of Ayurveda and Integrated Medical Sciences
(1) Varaha Puta is a type of heat application used in the Marana process of Kansya, which is described in the Rasendra Chudamani text for obtaining the Bhasma, and is a specific technique used.[1] (2) This term refers to a specific method used in the preparation of Swarna Makshika Bhasma, involving the use of heat in a controlled environment.[2] (3) Varaha Puta is another type of heat treatment, similar to Laghu Puta. The text indicates that certain formulations require this or Laghu Puta instead of Gajaputa, suggesting different heat requirements.[3] (4) This is a technique used in the preparation of bhasma, in which the mixture is heated with specific methods and the number of putas is important.[4] (5) This is a method used in the preparation of Swarnamakshika Bhasma, and it involves a specific arrangement and heating process.[5]
The concept of Varahaputa in scientific sources
Varahaputa is a method of incineration utilized for Bhasma preparation, where materials are exposed to high temperatures, reaching up to 580 degrees Celsius, ensuring their transformation into the desired ash form.