CHAPTER V.

LAMPS AND CANDLES.

Q. _Of what are OIL, TALLOW, and WAX composed?_

A. Principally of carbon and hydrogen gas. The _solid_ part is carbon, the _volatile_ part is gas.

Q. _What is CARBON?_

A. A solid substance, generally of a black colour; well known under the forms of charcoal, lamp-black, coke, black-lead, &c.

Q. _What is HYDROGEN GAS?_

A. The principal ingredient of water. It is well known in the form of common _coal gas_: it burns so readily that it used to be called "inflammable air."[10]

[10] To make hydrogen gas, see p. 34.

Q. _Why does a CANDLE BURN when lighted?_

A. The heat of the lighted wick _decomposes the tallow_ into its elementary parts of carbon and hydrogen; and the _hydrogen of the tallow_, combining with the _oxygen of the air_, produces _flame_.

Q. _Why is the FLAME of a candle HOT?_

A. 1st--Because the flame liberates _latent heat_ from the air and tallow: and

2ndly--It throws into _rapid motion_ the _atoms of matter_.

Q. _How is LATENT HEAT liberated by the flame of a CANDLE?_

A. When the _hydrogen_ of the tallow and _oxygen_ of the air _combine_, they _condense into water_; and much of their latent heat is _squeezed out_.

Q. _How are the ATOMS of MATTER disturbed by the flame of a candle?_

A. 1st--When the _hydrogen_ of the tallow and _oxygen_ of the air _condense into water_, a _vacuum_ is made; and the air is disturbed, as a _pond_ would be, if a pail of _water_ were taken out.

2ndly--When the _carbon_ of tallow and _oxygen_ of the air expand into _carbonic acid gas_, the air is _again_ disturbed; in a similar way as by the explosion of _gunpowder_.

Q. _Why does the flame of a CANDLE produce LIGHT?_

A. The chemical changes made by combustion, excite _undulations of ether_, which (striking the eye) produce light. (see p. 46.)

Q. _Why is the FLAME of a CANDLE YELLOW?_

A. Only the _outer_ coat of the flame is yellow; the _lower_ part of the flame is _violet_; and the _inside_ of the flame is _hollow_.

Q. _Why is the outside of the flame YELLOW?_

A. Because the _carbon of the tallow_ (being in a state of _perfect combustion_) is made white-hot.

Q. _Why is the BOTTOM part PURPLE of the flame of a candle?_

A. The _bottom part_ of the flame is _overladen with hydrogen_, raised from the tallow by the burning wick; and this _half-burnt gas_ gives a _purple_ tinge to the flame.

Q. _Why is the INSIDE of the flame of a candle HOLLOW?_

A. Because it is _filled with vapour_, raised from the candle by the _heat of the wick_.

Q. _Describe the different parts of the FLAME of a common CANDLE._

A. The flame consists of _three cones_. The innermost cone is hollow; the intermediate cone of a dingy purple hue; and the outside cone is yellow.

Q. _Why is the intermediate cone of a flame PURPLE, as well as the BOTTOM of the flame._

A. Because the gases are not in a state of _perfect combustion_; but contain an _excess of hydrogen_, which gives this cone a purple tinge.

Q. _Why is not the MIDDLE cone in a state of perfect combustion, as well as the OUTER cone?_

A. Because the outer cone _prevents the oxygen of the air_ from getting freely to the _middle of the cone_; and without the free access of oxygen gas, there is no such thing as complete combustion.

Q. _Why does the FLAME of a candle point UPWARDS?_

A. The flame _heats the surrounding air_, which (being hot) _rapidly ascends_, and drives the flame upwards at the same time.

Q. _Why is the FLAME of a candle POINTED at the top, like a cone?_

A. The _upper_ part of a flame is more _volatile_ than the lower parts; and as it affords _less resistance to the air_, is reduced to a mere point.

Q. _Why is the UPPER part of a flame more VOLATILE than the lower parts?_

A. The _lower_ parts of the flame are laden with unconsumed gas and watery vapour; which present considerable resistance to the air.

Q. _Why is the FLAME of a candle BLOWN OUT by a puff of breath?_

A. As the flame of a candle is attached to a _very small wick_, a puff of breath _severs the flame from the wick_; and it goes out for want of support.

Q. _Why does the FLAME of a candle make a GLASS DAMP, which is held over it?_

A. The _hydrogen of the tallow_ combining with the _oxygen of the air_, produce a "watery vapour," which is condensed by the _cold glass_ held above the flame.

Q. _Why does our hand, held ABOVE a candle, suffer from the heat of the flame so much more, than when it is placed BELOW the flame, or on ONE SIDE of it?_

A. Because the hot gases and air (in their ascent) _come in contact_ with the hand placed _above_ the flame: but when the hand is placed _below_ the flame, or on _one side_, it only feels heat from _radiation_.

Q. _Why is a RUSH LIGHT extinguished so much more quickly than a cotton-wicked candle?_

A. As the _rush_ wick is _smooth_ and _hard_, the _mere motion of the air_ (produced by carrying the candle from one place to another,) is sufficient to sever the flame from the rush.

Q. _Why is it more difficult to blow out a COTTON wick?_

A. The _cotton_ wick is _quite full of small threads_ or filaments, which help to _hold the flame on the wick_, like the roots of a tree.

Q. _Why does an EXTINGUISHER put a candle out?_

A. Because the air in the extinguisher _is soon exhausted of its oxygen_ by the flame: and when there is no _oxygen to support it_, the flame goes out.

Q. _Why does not a candle set fire to a PIECE OF PAPER twisted into an extinguisher, and used as such?_

A. 1st--Because the flame very soon _exhausts the little oxygen_ contained in the paper extinguisher: and

2ndly--The flame invests the _inside of the paper extinguisher_ with _carbonic acid gas_, which prevents it from blazing.

Q. _Why is a LONG WICK never upright?_

A. Because it is bent by its own weight.

Q. _Why is a LONG WICK covered with an EFFLORESCENCE at the top?_

A. The knotty or flowery appearance of the top of a wick arises _from an accumulation of particles partly separated_, but still loosely hanging to the wick.

Q. _Why is not the END of a long wick BURNT OFF, as it hangs over the flames?_

A. Because the length of the wick so diminishes _the heat of the flame_, that it is not _hot_ enough to burn it off.

Q. _Why do PALMER'S METALLIC WICKS never need SNUFFING?_

A. The wick is divided into two parts, each of which _bends outward_ to the outside of the flame; where the _end is intensely heated_, and _separated_ from the wick by the current of air up the candle.

Q. _Why do common CANDLES require to be SNUFFED?_

A. Because the heat of the flame is _not sufficient to consume the wick_; and the _longer_ the wick grows, the _less heat_ the flame produces.

Q. _Why do WAX CANDLES NEVER need SNUFFING?_

A. The wick of _wax_ candles is made _of very fine thread_, which the heat of the flame is sufficient to consume: but the wick of _tallow_ candles is made _of coarse cotton_, which is too substantial to be consumed by the heat of the flame, and must be cut off by _snuffers_.

Q. _Why does a PIN, stuck in a RUSH-LIGHT, EXTINGUISH it?_

A. Because a _pin_ (being a good conductor), _carries away the heat of the flame from the wick_, and prevents the combustion of the tallow.

Q. _What is the SMOKE of a CANDLE?_

A. Solid particles of carbon separated from the wick and tallow, but not consumed.

Q. _Why are SOME particles consumed and not OTHERS?_

A. The _combustion of the carbon_ depends upon its _combining with the oxygen of the air_: but as the outer surface of the flame _prevents the access of air to the interior parts_, therefore much of the carbon of those parts passes off in smoke.

Q. _Why do LAMPS SMOKE?_

A. Either because the _wick is cut unevenly_, or else because _it is turned up too high_.

Q. _Why does a LAMP SMOKE when the WICK is cut UNEVENLY?_

A. 1st--Because the _points of the jagged edge_ (being very easily separated from the wick,) _load the flame with more carbon than it can consume_: and

2ndly--As the heat of the flame is _greatly diminished by these bits of wick_, it is unable to consume _even the usual quantity of smoke_.

Q. _Why does a LAMP SMOKE when the WICK is turned up too HIGH?_

A. Because more carbon is separated from the wick _than can be consumed by the flame_.

Q. _Why do not "Argand burners" smoke?_

A. Because a current of air passes through the _middle of the flame_; and therefore the carbon of the _interior_ is consumed, as well as that _in the outer coating of the flame_.

Q. _Why does a LAMP-GLASS DIMINISH the SMOKE of a lamp?_

A. Because it both _concentrates and reflects the heat of the flame_; in consequence of which, the heat is so greatly increased, _that very little carbon escapes unconsumed_.