OF livinCt beings. 



faculty which certain coi-poreal combinations have, of enduring for a time, and under 

 a determinate form, by incessantly attracting into their composition a part of sur- 

 rounding substances, and rendering to the elements portions of their own proper 

 substance. 



Life, then, is a vortex (tourbillon) , more or less rapid, more or less complicated, 

 the direction of which is constant, and which always carries along molecules oi 

 the same kind, but into which individual molecules are continually entering, and 

 from which they are constantly departing ; so that the form of a living body is more 

 essential to it than its matter. 



As long as this movement subsists, the body in which it takes place is living — 

 it lives. When it is permanently arrested, the body dies. After death, the elements 

 which compose it, abandoned to the ordinary chemical aflS.nities, are not slow to 

 separate, from which, more or less quickly, results the dissolution of the body that 

 had been liA-ing. It was then by the vital motion that its dissolution was arrested, and 

 that the elements of the body were temporarily combined. 



AU living bodies die after a time, the extreme limit of which is determined for each 

 species ; and death appears to be a necessary consequence of life, which, by its own 

 action, insensibly alters the structure of the body wherein its functions are exercised, 

 so as to render its continuance impossible. 



In fact, the liAdng body undergoes gradual but constant changes during the whole 

 term of its existence. It increases first in dimensions, according to the proportions 

 and within the limits fixed for each species, and for each of its several parts ; then 

 it augments in density, in most of its parts : — it is this second kind of change that 

 appears to be the cause of natural death. 



On examining the various li\ang bodies more closely, a common structure ia 

 discerned, which a Httle reflection soon causes us to adjudge as essential to a vortex, 

 such as the \'ital motion. . 



Solids, it is evident, are necessary to these bodies for the maintenance of their 

 forms, and fluids for the conservation of motion in them. Their tissue, then, is com- 

 posed of interlacement and network, or of fibres and solid laminae, which inclose the 

 liquids in their interstices : it is in these liquids that the motion is most continmJ and 

 most extended ; the extraneous substances penetrate the intimate tissue of bodies in 

 incorporating with them ; they nourish the solids by interposing their molecules, and 

 also detach from them their superfluous molecules : it is in a liquid or gaseous form 

 that the matters to be exhaled traverse the pores of the living body ; but, in return, it 

 is the solids which contain these fluids, and by their contraction communicate to them 

 a part of their motion. 



This mutual action of the solids and fluids, this passage of molecules from one to 

 the other, necessitated considerable affinity in their chemical composition ; and, accord- 

 ingly, the solids of organized bodies are in great part composed of elements easily 

 convertible into liquids or gases. 



The motion of the fluids, requiring also a continually repeated action on the 

 part of the solids, and communicating one to them, demanded of the latter both 

 flexibility and dilatability ; and hence we find this character nearly general in all 

 organized solids. 



This fundamental structure, common to all living bodies — this areolar tissue, the more 



