________________ or (cf. also DVL-III, p. 253) (b) and or (v.426, p. 356) the second square root multiplied by the third square root, or the cube of the third square-root; expressly In particular, the law 56 226 225 296 264 232 = 296 बितियवगमूलं ततियवगमूलपडुप्पण्णं, अहवणं ततियवगमूलघणप्यमाणमेत्ताओ and if m = 2, 1 The above selected statements are conclusive to show that the Jaina school of Indian mathematics knew the addition law of indices, a. a" = a+ Archimedes (287 B.C. 212 B.C.) made use of this addition law but without its specific mention.3 (cf. Smith, pp.5 and 518) الله الله Jain Education International [2.1.3] Instances - The instances of the use of the laws of indices are numerous in the Jaina school of Indian mathematics. Here we are interested only to show that the subtraction law : a" ÷ a" = am-n was known to the school and therefore we select an interesting and popular instance as follows: छट्ठदगेण सत्तमवग्गे भागे हिदे छट्टवग्गो आगच्छादि । (DVL-III, p. 254) The seventh square (of 2) divided by the sixth square (of 2) gives the sixth square (of 2). Expressly, am" a1/4 a1 a3/8 1/8 = 227 a2n 3 = (1/21/20 - 226 ÷ am(n-1) = can be inferred from the above instance. ÷ a2(n-1) = = 226 a(m-1)m(n-1) = a2(n-1) For Private & Personal Use Only Arhat Vacana, 15 (4), 2003) www.jainelibrary.org