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Alphabetical    [«  »]
heartily 2
hearts 9
hearty 1
heat 64
heated 4
heating 1
heaved 2
Frequency    [«  »]
65 toward
65 why
64 certain
64 heat
63 attraction
63 where
62 enough
Jules Verne
From the Earth to the Moon
IntraText - Concordances

heat
   Chapter

 1 V    |         of the sun, and that its heat has no appreciable effect
 2 VI   |       the intensity of the solar heat; only, on being reminded
 3 VIII |        hardness, be infusible by heat, indissoluble, and inoxidable
 4 XV   |      thick curtain of smoke. The heat soon became insupportable
 5 XVI  |     Little by little the belt of heat contracted, until on the
 6 XVI  |          under the action of the heat; but, by the aid of the
 7 XIX  |          many hours the stifling heat while awaiting the arrival
 8 XIX  |          suffice to equalize the heat, and to render the temperature
 9 XX   |         overcoming it.”~“But the heat developed by the rapidity
10 XXVII|          the powder, expanded by heat, forced back the atmospheric
11 II   |        are moving! This stifling heat, penetrating through the
12 III  |          The gas gave sufficient heat for the culinary apparatus,
13 III  |           will receive light and heat. It economizes the gas,
14 V    |         no air, there is no more heat than diffused light; and
15 V    |       And why not?”~“Because the heat and cold would be equalized
16 V    |        it would have undergone a heat 28,000 times greater than
17 V    |         that of summer. But this heat, which is sufficient to
18 V    |          of the aphelion and the heat of the perihelion.”~“At
19 V    |           produce both light and heat in the universe.”~They now
20 VI   | Barbicane. “It is known now that heat is only a modification of
21 VI   |     warmed— that is to say, when heat is added to it—its particles
22 VI   |     every phenomenon of caloric. Heat is but the motion of atoms,
23 VI   |           It is transformed into heat, and the brake becomes hot.
24 VI   |      their heating, because this heat would be generated by the
25 VI   |        my motion is changed into heat.”~Barbicane could not help
26 VI   |      motion which is turned into heat. Consequently I affirm that,
27 VI   |      checked would have raised a heat great enough to turn it
28 VI   |         the fall would develop a heat equal to that produced by
29 VI   |         globe.”~“Good additional heat for the sun,” replied Michel
30 VI   |        suddenly stopped produces heat. And this theory allows
31 VI   |      allows us to infer that the heat of the solar disc is fed
32 VI   |       the sun ought to produce a heat equal to that of 4,000 masses
33 VI   |            And what is the solar heat?” asked Michel.~“It is equal
34 VI   |    forty-seven miles.”~“And that heat——”~“Would be able to boil
35 VI   |         four-tenths of the solar heat; besides, the quantity of
36 VI   |         besides, the quantity of heat intercepted by the earth
37 VI   |          the same length; and as heat is restored by radiation,
38 VII  |        the soup liquefied by the heat of the gas; nothing better
39 VII  |          taps, and regulated the heat of the gas by the pyrometer.
40 XIII |          transition from cold to heat, the temperature falling
41 XIV  | compensated by the insupportable heat which the light brings with
42 XIV  |         is evidently deprived of heat. But the invisible face
43 XIV  |       still more searched by the heat than the visible face. I
44 XIV  |          the same time light and heat from the sun, it is because
45 XIV  |        to 400,000 miles, and the heat which she receives must
46 XIV  |       and thus it was losing the heat stored up in its walls by
47 XIV  |       its walls by degrees. This heat was rapidly evaporating
48 XIV  |          also obliged to beg for heat. The projectile’s low temperature
49 XIV  |         light and saturated with heat, like the Indians of the
50 XIV  |          that of iron at a white heat; for whether the heat leaves
51 XIV  |      white heat; for whether the heat leaves our bodies briskly
52 XIV  |        lost by radiation all the heat which fifteen days of sun
53 XV   |       light, but not without its heat. Fortunately the caloric
54 XV   |      studies. It proved that all heat had not yet disappeared
55 XV   |         of this globe; and where heat exists, who can affirm that
56 XV   |       asteroid heated to a white heat. If thought was not destroyed
57 XVII |      With its light it also sent heat, which soon pierced the
58 XVII |          Nicholl, “these rays of heat are good. With what impatience
59 XVII |       brilliant ether, light and heat, all life is contained in
60 XVIII|        excessive cold to intense heat. Nature was thus preparing
61 XVIII|         alternations of cold and heat, her days and nights of
62 XVIII|         air, water, light, solar heat, and central heat, vegetation
63 XVIII|          solar heat, and central heat, vegetation took possession
64 XVIII| nocturnal radiation. Light, like heat, can diffuse itself in the

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