Simoom, a pestilential wind. Described. Owing to volcanic electricity.
Not a whirlwind 65
Contagion either animal or vegetable 82
Thyrsis escapes the Plague 91
Barometer and air-pump, Dew on exhausting the receiver though the hygrometer points to dryness. Rare air will dissolve or acquire more heat, and more moisture, and more electricity 128
Sound propagated best by dense bodies, as wood, and water, and earth.
Fish in spiral sh.e.l.ls all ear 164
Discoveries of Dr. Priestley. Green vegetable matter. Pure air contained in the calces of metals, as minium, manganese, calamy, ochre 166
Fable of Proserpine an antient chemical emblem 178
Diving balloons supplied with pure air from minium. Account of one by Mr. Boyle 195
Mr. Day. Mr. Spalding 217
Captain Pierce and his daughters 219
Pestilential winds of volcanic origin. Jordan flows through a country of volcanos 294
Change of wind owing to small causes. If the wind could be governed, the products of the earth would be doubled, and its number of inhabitants increased 308
Mr. Kirwan"s treatise on temperature of climates 342
Seeds of plants. Sp.a.w.n of fish. Nutriment lodged in seeds. Their preservation in their seed-vessels 355
Fixed stars approach each other 369
Fable of the Phoenix 377
Plants visible within bulbs, and buds, and seeds 383
Great Egg of Night 406
Seeds shoot into the ground. Pith. Seed-lobes. Starch converted into sugar. Like animal chyle 411
Light occasions the actions of vegetable muscles. Keeps them awake 422
Vegetable love in Parna.s.sia, Nigella. Vegetable adultery in Collinsonia 456
Strong vegetable shoots and roots bound with wire, in part debarked, whence leaf-buds converted into flower-buds. Theory of this curious fact 463
Branches bent to the horizon bear more fruit 466
Engrafting of a spotted pa.s.sion-flower produced spots upon the stock.
Apple soft on one side and hard on the other 483
Cyprepedium a.s.sumes the form of a large spider to affright the humming- bird. Fly-ophris. Willow-wren sucks the honey of the crown-imperial 505
Diseases of plants four kinds. Honey-dew 511
Ergot a disease of rye 513
Gla.s.s unannealed. Its cracks owing to elasticity. One kind of lead-ore cracks into pieces. Prince Rupert"s drops. Elastic b.a.l.l.s 519
Sleep of plants. Their irritability, sensibility, and voluntary motions 538
ADDITIONAL NOTES.
NOTE I.--METEORS.
_Etherial Forms! you chase the shooting stars, Or yoke the vollied lightnings to your cars._
CANTO I. l. 115.
There seem to be three concentric strata of our inc.u.mbent atmosphere; in which, or between them, are produced four kinds of meteors; lightning, shooting stars, fire-b.a.l.l.s, and northern lights. First, the lower region of air, or that which is dense enough to resist by the adhesion of its particles the descent of condensed vapour, or clouds, which may extend from one to three or four miles high. In this region the common lightning is produced from the acc.u.mulation or defect of electric matter in those floating fields of vapour either in respect to each other, or in respect to the earth beneath them, or the dissolved vapour above them, which is constantly varying both with the change of the form of the clouds, which thus evolve a greater or less surface; and also with their ever-changing degree of condensation. As the lightning is thus produced in dense air, it proceeds but a short course on account of the greater resistance which it encounters, is attended with a loud explosion, and appears with a red light.
2. The second region of the atmosphere I suppose to be that which has too little tenacity to support condensed vapour or clouds; but which yet contains invisible vapour, or water in aerial solution. This aerial solution of water differs from that dissolved in the matter of heat, as it is supported by its adhesion to the particles of air, and is not precipitated by cold. In this stratum it seems probable that the meteors called shooting stars are produced; and that they consist of electric sparks, or lightning, pa.s.sing from one region to another of these invisible fields of aero-aqueous solution. The height of these shooting stars has not yet been ascertained by sufficient observation; Dr.
Blagden thinks their situation is lower down in the atmosphere than that of fireb.a.l.l.s, which he conjectures from their swift apparent motion, and ascribes their smallness to the more minute division of the electric matter of which they are supposed to consist, owing to the greater resistance of the denser medium through which they pa.s.s, than that in which the fire-b.a.l.l.s exist. Mr. Brydone observed that the shooting stars appeared to him to be as high in the atmosphere, when he was near the summit of mount Etna, as they do when observed from the plain. Phil.
Tran. Vol. LXIII.
As the stratum of air, in which shooting stars are supposed to exist is much rarer than that in which lightning resides, and yet much denser than that in which fire-b.a.l.l.s are produced, they will be attracted at a greater distance than the former, and at a less than the latter. From this rarity of the air so small a sound will be produced by their explosion, as not to reach the lower parts of the atmosphere; their quant.i.ty of light from their greater distance being small, is never seen through dense air at all, and thence does not appear red, like lightning or fire b.a.l.l.s. There are no apparent clouds to emit or to attract them, because the const.i.tuent parts of these aero-aqueous regions may possess an abundance or deficiency of electric matter and yet be in perfect reciprocal solution. And lastly their apparent train of light is probably owing only to a continuance of their impression on the eye; as when a fire-stick is whirled in the dark it gives the appearance of a compleat circle of fire: for these white trains of shooting stars quickly vanish, and do not seem to set any thing on fire in their pa.s.sage, as seems to happen in the transit of fire-b.a.l.l.s.
3. The second region or stratum of air terminates I suppose where the twilight ceases to be refracted, that is, where the air is 3000 times rarer than at the surface of the earth; and where it seems probable that the common air ends, and is surrounded by an atmosphere of inflammable gas tenfold rarer than itself. In this region I believe fire-b.a.l.l.s sometimes to pa.s.s, and at other times the northern lights to exist. One of these fire-b.a.l.l.s or draco volans, was observed by Dr. Pringle and many others on Nov. 26, 1758, which was afterwards estimated to have been a mile and a half in circ.u.mference, to have been about one hundred miles high, and to have moved towards the north with a velocity of near thirty miles in a second of time. This meteor had a real tail many miles long, which threw off sparks in its course, and the whole exploded with a sound like distant thunder. Philos. Trans. Vol. LI.
Dr. Blagden has related the history of another large meteor, or fire- ball, which was seen the 18th of August, 1783, with many ingenious observations and conjectures. This was estimated to be between 60 and 70 miles high, and to travel 1000 miles at the rate of about twenty miles in a second. This fire-ball had likewise a real train of light left behind it in its pa.s.sage, which varied in colour; and in some part of its course gave off sparks or explosions where it had been brightest; and a dusky red streak remained visible perhaps a minute. Philos. Trans.
Vol. LXXIV.
These fire-b.a.l.l.s differ from lightning, and from shooting stars in many remarkable circ.u.mstances; as their very great bulk, being a mile and a half in diameter; their travelling 1000 miles nearly horizontally; their throwing off sparks in their pa.s.sage; and changing colours from bright blue to dusky red; and leaving a train of fire behind them, continuing about a minute. They differ from the northern lights in not being diffused, but pa.s.sing from one point of the heavens to another in a defined line; and this in a region above the crepuscular atmosphere, where the air is 3000 tines rarer than at the surface of the earth.
There has not yet been even a conjecture which can account for these appearances!--One I shall therefore hazard; which, if it does not inform, may amuse the reader.
In the note on l. 123, it was shewn that there is probably a supernatant stratum of inflammable gas or hydrogene, over the common atmosphere; and whose density at the surface where they meet, must be at least ten times less than that upon which it swims; like chemical ether floating upon water, and perhaps without any real contact. 1. In this region, where the aerial atmosphere terminates and the inflammable one begins, the quant.i.ty of tenacity or resistance must be almost inconceivable; in which a ball of electricity might pa.s.s 1000 miles with greater ease than through a thousandth part of an inch of gla.s.s. 2. Such a ball of electricity pa.s.sing between inflammable and common air would set fire to them in a line as it patted along; which would differ in colour according to the greater proportionate commixture of the two airs; and from the same cause there might occur greater degrees of inflammation, or branches of fire, in some parts of its course.
As these fire-b.a.l.l.s travel in a defined line, it is pretty evident from the known laws of electricity, that they must be attracted; and as they are a mile or more in diameter, they must be emitted from a large surface of electric matter; because large n.o.bs give larger sparks, less diffused, and more brightly luminous, than less ones or points, and resist more forceably the emission of the electric matter. What is there in nature can attract them at so great a distance as 1000 miles, and so forceably as to detach an electric spark of a mile diameter? Can volcanos at the time of their eruptions have this effect, as they are generally attended with lightning? Future observations must discover these secret operations of nature! As a stream of common air is carried along with the pa.s.sage of electric aura from one body to another; it is easy to conceive, that the common air and the inflammable air between which the fire-ball is supposed to pa.s.s, will be partially intermixed by being thus agitated, and so far as it becomes intermixed it will take fire, and produce the linear flame and branching sparks above described.
In this circ.u.mstance of their being attracted, and thence pa.s.sing in a defined line, the fire-b.a.l.l.s seem to differ from the coruscations of the aurora borealis, or northern lights, which probably take place in the same region of the atmosphere; where the common air exists in extreme tenuity, and is covered by a still rarer sphere of inflammable gas, ten times lighter than itself.
As the electric streams, which const.i.tute these northern lights, seem to be repelled or radiated from an acc.u.mulation of that fluid in the north, and not attracted like the fireb.a.l.l.s; this accounts for the diffusion of their light, as well as the silence of their pa.s.sage; while their variety of colours, and the permanency of them, and even the breadth of them in different places, may depend on their setting on fire the mixture of inflammable and common air through which they pa.s.s; as seems to happen in the transit of the fire-b.a.l.l.s.
It was observed by Dr. Priestley that the electric shock taken through inflammable air was red, in common air it is blueish; to these circ.u.mstances perhaps some of the colours of the northern lights may bear a.n.a.logy; though the density of the medium through which light is seen must princ.i.p.ally vary its colour, as is well explained by Mr.
Morgan. Phil. Trans. Vol. LXXV. Hence lightning is red when seen through a dark cloud, or near the horizon; because the more refrangible rays cannot permeate so dense a medium. But the shooting stars consist of white light, as they are generally seen on clear nights, and nearly vertical: in other situations their light is probably too faint to come to us. But as in some remarkable appearances of the northern lights, as in March, 1716, all the prismatic colours were seen quickly to succeed each other, these appear to have been owing to real combustion; as the density of the interposed medium could not be supposed to change so frequently; and therefore these colours must have been owing to different degrees of heat according to Mr. Morgan"s theory of combustion. In Smith"s Optics, p. 69. the prismatic colours, and optical deceptions of the northern lights are described by Mr. Cotes.