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arrangement of the cosmos. The Mîmâ@msakas, the Cârvâkas, the Buddhists and the Jains all deny the existence of Îs'vara (God). Nyâya believes that Îs'vara has fashioned this universe by his will out of the ever-existing atoms. For every effect (e.g. a jug) must have its cause. If this be so, then this world with all its order and arrangement must also be due to the agency of some cause, and this cause is Îs'vara. This world is not momentary as the Buddhists suppose, but is permanent as atoms, is also an effect so far as it is a collocation of atoms and is made up of parts like all other individual objects (e.g. jug, etc.), which we call effects. The world being an effect like any other effect must have a cause like any other effect. The objection made against this view is that such effects as we ordinarily perceive may be said to have agents as their causes but this manifest world with mountains, rivers, oceans etc. is so utterly different in form from ordinary effects that we notice every day, that the law that every effect must have a cause cannot be said to hold good in the present case. The answer that Nyâya gives is that the concomitance between two things must be taken in its general aspect neglecting the specific peculiarities of each case of observed concomitance. Thus I had seen many cases of the concomitance of smoke with fire, and had thence formed the notion that "wherever there is smoke there is fire"; but if I had only observed small puffs of smoke and small fires, could I say that only small quantities of smoke could lead us to the inference of fire, and could I hold that therefore large volumes of smoke from the burning of a forest should not be sufficient reason for us to infer the existence of fire in the forest?

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Thus our conclusion should not be that only smaller effects are preceded by their causes, but that all effects are invariably and unconditionally preceded by causes. This world therefore being an effect must be preceded by a cause, and this cause is Îs'vara. This cause we cannot see, because Îs'vara has no visible body, not because he does not exist. It is sometimes said that we see every day that shoots come out of seeds and they are not produced by any agent. To such an objection the Nyâya answer is that even they are created by God, for they are also effects. That we do not see any one to fashion them is not because there is no maker of them, but because the creator cannot be seen. If the objector could distinctly prove that there was no invisible maker shaping these shoots, then only could he point to it as a case of contradiction. But so long as this is not done it is still only a doubtful case of enquiry and it is therefore legitimate for us to infer that since all effects have a cause, the shoots as well as the manifest world being effects must have a cause. This cause is Îs'vara. He has infinite knowledge and is all merciful. At the beginning of creation He created the Vedas. He is like our father who is always engaged in doing us good [Footnote ref 1].

Tht Nyâya-Vais'e@sika Physics.

The four kinds of atoms are earth, water, fire, and air atoms. These have mass, number, weight, fluidity (or hardness), viscosity (or its opposite), velocity, characteristic potential colour, taste, smell, or touch, not produced by the chemical operation of heat. Âkâs'a (space) is absolutely inert and structure-less being only as the substratum of sound, which is supposed to travel wave-like in the manifesting medium of air. Atomic combination is only possible with the four elements. Atoms cannot exist in an uncombined condition in the creation stage; atmospheric air however consists of atoms in an uncombined state.

Two atoms combine to form a binary molecule (dvya@nuka). Two, three, four, or five dvya@nukas form themselves into grosser molecules of trya@nuka, catura@nuka, etc. [Footnote ref 2]. Though this was the generally current view, there was also another view as has been pointed out by Dr B.N. Seal in his Positive Sciences of the Ancient Hindus, that the "atoms have also an inherent tendency to unite," and that

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[Footnote 1: See Jayanta's Nyâyamañjarî, pp. 190-204, and Udayana's Kusumâñjali with Prakâs'a and Îs'varânumâna of Raghunâtha.]

[Footnote 2: Kadâcit tribhirârabhyate iti trya@nukamityucyate, kadâcit caturbhirârabhyate kadâcit pañcabhiriti yathe@s@ta@m kalpanâ. Nyâyakandalî, p. 32.]

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they do so in twos, threes, or fours, "either by the atoms falling into groups of threes, fours, etc., directly, or by the successive addition of one atom to each preceding aggregate [Footnote ref l]." Of course the atoms are regarded as possessed of an incessant vibratory motion. It must however be noted in this connection that behind this physical explanation of the union of atoms there is the ad@r@s@ta, the will of Îs'vara, which gives the direction of all such unions in harmony with the principle of a "moral government of the universe," so that only such things are produced as can be arranged for the due disposal of the effects of karma. "An elementary substance thus produced by primary atomic combination may however suffer qualitative changes under the influence of heat (pâkajotpatti)" The impact of heat corpuscles decomposes a dvya@nuka into the atoms and transforms the characters of the atoms determining them all in the same way. The heat particles continuing to impinge reunite the atoms so transformed to form binary or other molecules in different orders or arrangements, which account for the specific characters or qualities finally produced. The Vais'e@sika holds that there is first a disintegration into simple atoms, then change of atomic qualities, and then the final re-combination, under the influence of heat. This doctrine is called the doctrine of pîlupâka (heating of atoms). Nyâya on the other hand thinks that no disintegration into atoms is necessary for change of qualities, but it is the molecules which assume new characters under the influence of heat. Heat thus according to Nyâya directly affects the characters of the molecules and changes their qualities without effecting a change in the atoms. Nyâya holds that the heat-corpuscles penetrate into the porous body of the object and thereby produce the change of colour. The object as a whole is not disintegrated into atoms and then reconstituted again, for such a procedure is never experienced by observation. This is called the doctrine of pi@tharapâka (heating of molecules). This is one of the few points of difference between the later Nyâya and Vais'e@sika systems [Footnote ref 2].

Chemical compounds of atoms may take place between the

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[Footnote 1: Utpala's commentary on Brhatsamh@itâ I. 7.]

[Footnote 2: See Dr B.N. Seal in P.C. Ray's Hindu Chemistry, pp. 190-191, Nyâyamañjarî, p 438, and Udyotakara's Vârttika. There is very little indication in the Nyâya and Vais'e@sika sûtras that they had any of those differences indicated here. Though there are slight indications of these matters in the Vais'e@sika sûtras (VII. 1), the Nyâya sûtras are almost silent upon the matter. A systematic development of the theory of creation and atomic combinations appear to have taken place after Vâtsyâyana.]

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atoms of the same bhûta or of many bhûtas. According to the Nyâya view there are no differences in the atoms of the same bhûta, and all differences of quality and characteristics of the compound of the same bhûta are due only to diverse collocations of those atoms. Thus Udyotakara says (III. i. 4) that there is no difference between the atom of a barley seed and paddy seed, since these are all but atoms of earth. Under the continued impact of heat particles the atoms take new characters. It is heat and heat alone that can cause the transformations of colours, tastes etc. in the original bhûta atoms. The change of these physical characters depends on the colours etc. of the constituent substances in contact, on the intensity or degree of heat and also on the species of tejas corpuscles that impinge on the atoms. Heat breaks bodies in contact into atoms, transforms their qualities, and forms separate bodies with them.

Pras'astapâda (the commentator of Vais'e@sika) holds that in the higher compounds of the same bhûta the transformation takes place (under internal heat) in the constituent atoms of the compound molecules, atoms specially determined as the compound and not in the original atoms of the bhûta entering into the composition of the compound. Thus when milk is turned into curd, the transformation as curd takes place in the atoms determined as milk in the milk molecule, and it is not necessary that the milk molecule should be disintegrated into the atoms of the original bhûta of which the milk is a modification. The change as curd thus takes place in the milk atom, and the milk molecule has not to be disintegrated into k@siti or ap atoms. So again in the fertilized ovum, the germ and the ovum substances, which in the Vais'e@sika view are both isomeric modes of earth (with accompaniments of other bhûtas) are broken up into homogeneous earth atoms, and it is these that chemically combine under the animal heat and biomotor force vâyu to form the germ (kalala). But when the germ plasm develops, deriving its nutrition from the blood of the mother, the animal heat breaks up the molecules of the germ plasm into its constituent atoms, i.e. atoms specifically determined which by their grouping formed the germ plasm. These germ-plasm atoms chemically combine with the atoms of the food constituents and thus produce cells and tissues [Footnote ref 1]. This atomic contact is called ârambhaka-sa@myoga.

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[Footnote 1: See Dr B.N. Seal's Positive Sciences, pp. 104-108, and Nyâyakandalî, pp. 33-34, "S'arîrârambhe paramânava eva kâra@nam na s'ukra-s'onitasannipâta@h kriyâvibhâgâdinyâyena tayorvinâs'e sati utpannapâkajai@h paramâ@nubhirârambhât, na ca s'ukras'onitaparamâ@nûnâ@m kas'cidvis'e@sa@h pârthivatvâvis'e@sât….Pitu@h s'ukra@m mâtuh s'onita@m tayos sannipâtânantara@m ja@tharânalasambandhât s'ukra-s'onitârambhake@su paramâ@nu@su pûrvarûpâdivinâs'e samâ@nagu@nântarotpattau dvya@nukâdikrame@na kalalas'arirotpatti@h tatrântahkara@napraves'o…tatra mâturâhâraraso mâtrayâ sa@mkrâmate, ad@r@s@tavas'âttatra punarja@tharânalasambandhât kalalârambhakaparamâ@nu@su kriyâvibhâgadinyâyena kalalas'arîre na@s@te samutpannapâkajai@h kalalârambhakaparamâ@nubhirad@r@s@tavas'âd upajâtakriyairâhâraparamâ@nitbhi@h saha sambhûya s'arîrântaramârakkyate.".]

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In the case of poly-bhautik or bi-bhautik compounds there is another kind of contact called upa@s@tambha. Thus in the case of such compounds as oils, fats, and fruit juices, the earth atoms cannot combine with one another unless they are surrounded by the water atoms which congregate round the former, and by the infra-atomic forces thus set up the earth atoms take peculiar qualities under the impact of heat corpuscles. Other compounds are also possible where the ap, tejas, or the vâyu atoms form the inner radicle and earth atoms dynamically surround them (e.g. gold, which is the tejas atom with the earth atoms as the surrounding upa@s@tambhaka). Solutions (of earth substances in ap) are regarded as physical mixtures.

Udayana points out that the solar heat is the source of all the stores of heat required for chemical change. But there are differences in the modes of the action of heat; and the kind of contact with heat-corpuscles, or the kind of heat with chemical action which transforms colours, is supposed to differ from what transforms flavour or taste.

Heat and light rays are supposed to consist of indefinitely small particles which dart forth or radiate in all directions rectilineally with inconceivable velocity. Heat may penetrate through the interatomic space as in the case of the conduction of heat, as when water boils in a pot put on the fire; in cases of transparency light rays penetrate through the inter-atomic spaces with parispanda of the nature of deflection or refraction (tiryag-gamana). In other cases heat rays may impinge on the atoms and rebound back—which explains reflection. Lastly heat may strike the atoms in a peculiar way, so as to break up their grouping, transform the physico-chemical characters of the atoms, and again recombine them, all by means of continual impact with inconceivable velocity, an operation which explains all cases of chemical combination [Footnote ref l]. Govardhana a later Nyâya writer says that pâka means the combination of different kinds of heat. The heat that

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[Footnote 1: See Dr Seal's Positive Sciences of the Hindus.]

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changes the colour of a fruit is different from that which generates or changes the taste. Even when the colour and taste remain the same a particular kind of heat may change the smell. When grass eaten by cows is broken up into atoms special kinds of heat-light rays change its old taste, colour, touch and smell into such forms as those that belong to milk [Footnote ref 1].

In the Nyâya-Vais`e@sika system all action of matter on matter is thus resolved into motion. Conscious activity (prayatna) is distinguished from all forms of motion as against the Sâ@mkhya doctrine which considered everything other than puru@sa (intelligence) to arise in the course of cosmic evolution and therefore to be subject to vibratory motion.

The Origin of Knowledge (Pramâ@na).

The manner in which knowledge originates is one of the most favourite topics of discussion in Indian philosophy. We have already seen that Sâ@mkhya-Yoga explained it by supposing that the

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