Long before Copernicus proposed the heliocentric model, before Galileo trained his telescope on the moons of Jupiter, and before Newton formalised the laws of planetary motion, Indian astronomers were calculating the positions of celestial bodies with remarkable precision, developing sophisticated mathematical frameworks for understanding cosmic cycles, and articulating cosmological models that placed the Earth in motion within a larger universe. This article examines seven major astronomical contributions of ancient India, drawing on the Vedanga Jyotisha (the astronomical supplement to the Vedas, approximately 1200 BCE), the Aryabhatiya of Aryabhata (499 CE), the Brahmasphutasiddhanta of Brahmagupta (628 CE), the Surya Siddhanta, and the Kerala School of Astronomy and Mathematics (14th–16th century CE), which developed infinite series expansions for trigonometric functions 200 years before Gregory and Leibniz. The seven contributions examined include: Aryabhata's heliocentric model and his calculation of the Earth's circumference to within 0.2% accuracy; the Vedic understanding of cosmic time cycles (Yugas, Kalpas, and Manvantaras) and their extraordinary numerical scales; the precise astronomical calculations of the Surya Siddhanta; Brahmagupta's treatment of zero and negative numbers in astronomical calculation; the Kerala School's anticipation of calculus; the Jantar Mantar observatories of Jai Singh II; and the Nakshatra system as a sophisticated astronomical classification of the lunar mansions. The article argues that Indian astronomical achievement is not a matter of nationalist sentiment but of verifiable historical record that deserves its proper place in the global history of science.
Narayan Rout (Thu,) studied this question.