Reason Why

<h2><SPAN name="CHAPTER_VI" id="CHAPTER_VI"></SPAN>CHAPTER VI.</h2> <p><SPAN id="question_93"></SPAN>93. <i>How many kinds of combustion are there?</i></p> <p>There are <i>three</i>, viz., slow oxydation, <i>when little or no light is evolved</i>; a more rapid combination, <i>when the heat is so great as to become luminous</i>; and a still more energetic action, <i>when it bursts into flame</i>.</p> <p><SPAN id="question_94"></SPAN>94. <i>Why does phosphorous look luminous?</i></p> <p>Because it is undergoing slow <i>combustion</i>.</p> <p><SPAN id="question_95"></SPAN>95. <i>Why do decayed wood, and putrifying fish, look luminous?</i></p> <p>Because they are undergoing slow <i>combustion</i>. In these cases the heat and light evolved are at no one time very considerable. But the <i>total amount of heat</i>, and probably of <i>light</i>, generated through the lengthy period of this slow oxydation, <i>amounts to exactly the same as would be evolved during the most rapid combustion of the same substances</i>.</p> <p><SPAN id="question_96"></SPAN>96. <i>What is flame?</i></p> <p>It is gaseous matter burning at a <i>very high temperature</i>.</p> <p><SPAN id="question_97"></SPAN>97. <i>Why, when we put fresh coals upon a fire, do we hear the gas escaping from the coals without taking fire?</i></p> <p><span class="pagenum"><SPAN name="Page_44" id="Page_44">[Pg 44]</SPAN></span></p> <p>Because, the fire being slow, the temperature is not high enough to ignite the gas.</p> <hr class="bible-verse" /> <p class="center bq">"I will praise thee, O Lord, with my whole heart; I will show forth thy marvellous work."&mdash;<span class="smcap">Psalm ix.</span></p> <hr class="bible-verse" /> <p><SPAN id="question_98"></SPAN>98. <i>What is the gas which escapes from the coals?</i></p> <p>Carburetted hydrogen.</p> <p><SPAN id="question_99"></SPAN>99. <i>Why, if we light a piece of paper, and lay it where the gas is escaping from the coals, will it burst into flame?</i></p> <p>Because the lighted paper gives a <i>heat sufficient</i> to ignite the gas; and because also hydrogen requires the contact of <i>flame</i> to ignite it.</p> <p><SPAN id="question_100"></SPAN>100. <i>Why, when the coals have become heated, will the hydrogen burst into flame?</i></p> <p>Because the <i>carbon</i> of the coals, and the <i>oxygen</i> of the air, have begun to combine, and have greatly increased the <i>heat</i>, and have produced a rapid combustion, <i>so nearly allied to flame</i>, that it <i>ignites the hydrogen</i>.</p> <p><SPAN id="question_101"></SPAN>101. <i>What temperature is required to produce flame?</i></p> <p>That depends upon the nature of the combustible you desire to burn. Finely divided phosphorous and phosphorated hydrogen will take fire at a temperature of 60 deg. or 70 deg.; solid phosphorous at 140 deg.; sulphur at 500 deg.; hydrogen and carbonic oxide at 1,000 deg. (red heat); coal gas, ether, turpentine, alcohol, tallow, and wood, at about 2,000 deg. (incipient white heat). When once inflamed they will <i>continue to burn</i>, and will maintain a very high temperature.</p> <p><SPAN id="question_102"></SPAN>102. <i>What is smoke?</i></p> <p>Smoke consists of small particles of <i>carbon</i> of <i>hydrogen gas</i>, and <i>other volatile matters</i>, which are driven off by heat and carried up the chimney.</p> <p><SPAN id="question_103"></SPAN>103. <i>Is it not a waste of fuel to allow this matter to escape?</i></p> <p>It is, as it might all be burnt up by better management.</p> <p><SPAN id="question_104"></SPAN>104. <i>How may the waste be avoided?</i></p> <p>By putting on only a little coals at a time, so that the heat of the fire shall be sufficient to consume these volatile matters as they escape.</p> <p><span class="pagenum"><SPAN name="Page_45" id="Page_45">[Pg 45]</SPAN></span></p> <hr class="bible-verse" /> <p class="center bq">"And the strong shall be as tow, and the maker of it as a spark, and they shall both burn together, and none shall quench them."&mdash;<span class="smcap">Isaiah i.</span></p> <hr class="bible-verse" /> <p><SPAN id="question_105"></SPAN>105. <i>Why is there so little smoke when the fire is red?</i></p> <p>Because the <i>hydrogen</i> and the <i>volatile</i> parts of the <i>coal</i> have already been driven off and consumed, and the combustion that continues is principally caused by the <i>carbon</i> of the coals, and the oxygen of the air.</p> <p><SPAN id="question_106"></SPAN>106. <i>Will carbon, burnt in oxygen, produce flame and smoke?</i></p> <p>It burns brightly, but it produces neither flame nor smoke.</p> <p><SPAN id="question_107"></SPAN>107. <i>Why do not charcoal and coke fires give flame?</i></p> <p>Because the <i>hydrogen</i> has been driven off by the processes by which charcoal and coke are made.</p> <p><SPAN id="question_108"></SPAN>108. <i>What is a conductor of heat?</i></p> <p>A conductor of heat is any substance through which heat is <i>readily transmitted</i>.</p> <p><SPAN id="question_109"></SPAN>109. <i>What is a non-conductor of heat?</i></p> <p>A non-conductor is any substance through which heat will <i>not</i> pass readily.</p> <p><SPAN id="question_110"></SPAN>110. <i>Name a few good conductors.</i></p> <p>Gold, silver, copper, platinum, iron, zinc, tin, stone, <i>and all dense solid bodies</i>.</p> <p><SPAN id="question_111"></SPAN>111. <i>Name a few non-conductors.</i></p> <p>Fur, wool, down, wood, cotton, paper, and <i>all substances of a spongy or porous texture</i>.</p> <p><SPAN id="question_112"></SPAN>112. <i>How is heat transmitted from one body to another?</i></p> <p>By Conduction, Radiation, Reflection, Absorption and Convection.</p> <p><SPAN id="question_113"></SPAN>113. <i>What is the Conduction of heat?</i></p> <p>It is the communication of heat from one body to another <i>by contact</i>. If I lay a penny piece upon the hob, it becomes hot by <i>conduction</i>.</p> <p><SPAN id="question_114"></SPAN>114. <i>What is the Radiation of heat?</i></p> <p>The transmission of heat by a <i>series of rays</i>. If I hold my hand <span class="pagenum"><SPAN name="Page_46" id="Page_46">[Pg 46]</SPAN></span> before the fire, the rays of heat fall upon it, and <i>my hand receives the heat through radiation</i>.</p> <hr class="bible-verse" /> <p class="center bq">"Sing praises to the Lord, which dwelleth in Zion, declare among the people his doings."&mdash;<span class="smcap">Psalm ix.</span></p> <hr class="bible-verse" /> <p><SPAN id="question_115"></SPAN>115. <i>What is the Reflection of heat?</i></p> <p>The reflection of heat is the <i>throwing back</i> of its rays towards the direction whence they came. In a Dutch oven the rays of heat pass from the fire to the oven, and are <i>reflected</i> back again by <i>the bright surface of the tin</i>. There is, therefore, considerable economy of heat in ovens, and other cooking utensils constructed upon this plan.</p> <p><SPAN id="question_116"></SPAN>116. <i>What is the Absorption of heat?</i></p> <p>The absorption of heat is the taking of it up by the body to which it is transmitted or conducted. Heat was conveyed to my hand by <i>radiation</i>, and <i>taken up</i> by my hand by <i>absorption</i>.</p> <p><SPAN id="question_117"></SPAN>117. <i>What is the Convection of heat?</i></p> <p>The convection of heat is the transmission of it <i>through</i> a body or a number of bodies, or particles of bodies, by those substances which <i>first received it</i>; as when hot water rises from the bottom of a kettle and imparts heat to the cold water lying above it.</p> <hr class="chap" /> <div style="break-after:column;"></div><br />