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- Illuminated manuscript (5973 bytes)
1: [[Image:AberdeenBestiaryFolio004vChristInMajesty.jpg|thumb|250px|In the strictest definitio...
3: ...iods, they are the only surviving examples of painting.
16: ...|vellum]], animal hides specially prepared for writing, were cut down to the appropriate size. After t...
18: ...specially in the [[British Isles]], where distinctive scripts such as [[insular majuscule]] and [[insu...
35: ...[orpiment]] (As<sub>2</sub>S<sub>3</sub>, Arsenic Sulfide) - Volcano (27295 bytes)
2: ...r near the boundaries of the [[plate tectonics|continental plates]]. However, important exceptions exis...
10: ...sily plugs. [[Mount Pelé¥] on the island of [[Martinique]] is another example.
12: ...lder chemistry terms "acidic" and "basic", respectively. The latter were thought to be a little mislea...
15: ...ws are generally very hot and very fluid, contributing to long flows. The largest lava shield on [[Eart...
18: ...p around the vent. These can be relatively short-lived eruptions that produce a cone-shaped hill perha... - Wisconsin (18812 bytes)
7: Map = Map_of_USA_highlighting_Wisconsin.png |
40: ...consin'' originally was applied to the Wisconsin River, and later to the area as a whole when Wisconsi...
51: ...esidents being relatively equally split between voting for the [[United States Democratic Party|Democra...
53: ...he Badger State". Many miners and their families lived in the mines in which they worked until adequat...
61: ...which is free for all visitors as well as the [[University of Wisconsin]]. - Jupiter (24639 bytes)
134: | [[Hydrogen sulfide]]
138: ...]]; some have described the solar system as consisting of the Sun, Jupiter, and assorted debris. It and...
140: ... the planet as the ''Wood Star'', based on the [[Five Elements]].
145: ...se it would need to be about seventy times as massive if it were to become a star.
147: ... rate of any planet within the solar system, resulting in a flattening easily seen through a telescope.... - Uranus (15207 bytes)
142: | [[Carbon monoxide]]<br>[[Hydrogen sulfide]]
149: ...er]] and [[Saturn (planet)|Saturn]] minus the massive liquid [[metallic hydrogen]] envelope. It appear...
153: ...r part of its orbit one pole faces the [[Sun]] continually whilst the other pole faces away. At the oth...
155: ... direction; these two descriptions are exactly equivalent as physical descriptions of the planet but r...
157: ...ientation is that the polar regions of Uranus receive a greater energy input from the Sun than its equ... - Prokaryote (4630 bytes)
1: ...yms. However, [[Carl Woese|Woese]] has proposed dividing prokaryotes into the Bacteria and [[Archaea]...
4: ...abolic processes and are believed to have been derived from endosymbiotic bacteria. In prokaryotes si...
6: ...attaches to the cell membrane, and then the cell divides in two. However, they show a variety of para...
8: ... organisms that remain attached following [[cell division]], sometimes through the help of a secreted ...
11: ...erred to as [[extremophiles]]. Many prokaryotes live in or on the bodies of other organisms, includin... - Photosynthesis (9830 bytes)
3: ...f light to produce food. Ultimately, nearly all living things depend on energy produced from photosyn...
6: ... eating other organisms or relying on material derived from them. Most notably, they use [[carbon dio...
13: ...]y [[cuticle]], that protects the leaf from excessive absorption of light and evaporation of water. Th...
16: ...chlorophyll, although various accessory pigments give them a wide variety of colors, located inside ch...
21: ... two [[photosystem]]s involved, which are most active at 700 and 680 [[nanometre|nm]]. However, other... - Antimony (9093 bytes)
7: | colspan="2" align="center" | [[tin]] – '''antimony''' – [[tellurium]]
12: ...[Periodic table (standard)|Full table]]</small></div>
56: | [[Melting point]]
74: | [[Electronegativity]] || 2.05 ([[Pauling scale]])
79: | [[Electrical conductivity]] || 2.88 10<sup>6</sup>/(m?[[ohm]]) - Arsenic (12497 bytes)
12: ...[Periodic table (standard)|Full table]]</small></div>
55: | [[Melting point]]
73: | [[Electronegativity]] || 2.18 ([[Pauling scale]])
78: | [[Electrical conductivity]] || 3.45 10<sup>6</sup>/(m?[[ohm]])
80: | [[Thermal conductivity]] - Barium (8466 bytes)
13: ...[Periodic table (standard)|Full table]]</small></div>
57: | [[Melting point]]
75: | [[Electronegativity]] || 0.89([[Pauling scale]])
80: | [[Electrical conductivity]] || 3 10<sup>6</sup>/m [[ohm]]
82: | [[Thermal conductivity]] - Cadmium (10755 bytes)
11: ...[Periodic table (standard)|Full table]]</small></div>
62: | [[Melting point]]
85: | [[Electronegativity]]
91: | [[Electrical conductivity]]
94: | [[Thermal conductivity]] - Calcium (9166 bytes)
9: ...[Periodic table (standard)|Full table]]</small></div></td></tr>
46: <td>[[Melting point]] </td><td>1...
62: <td>[[Electronegativity]] </td><td>1.00 ([[P...
66: <td>[[Electrical conductivity]] </td><td>29.8 10<sup>6</...
68: <td>[[Thermal conductivity]] </td><td>201 [[watt p... - Copper (13595 bytes)
11: ...[Periodic table (standard)|Full table]]</small></div>
62: | [[Melting point]]
85: | [[Electronegativity]]
91: | [[Electrical conductivity]]
94: | [[Thermal conductivity]] - Dysprosium (8843 bytes)
10: ...[Periodic table (standard)|Full table]]</small></div>
61: | [[Melting point]]
84: | [[Electronegativity]]
90: | [[Electrical conductivity]]
93: | [[Thermal conductivity]] - Europium (8579 bytes)
10: ...[Periodic table (standard)|Full table]]</small></div>
61: | [[Melting point]]
84: | [[Electronegativity]]
90: | [[Electrical conductivity]]
93: | [[Thermal conductivity]] - Gadolinium (9860 bytes)
10: ...[Periodic table (standard)|Full table]]</small></div>
61: | [[Melting point]]
84: | [[Electronegativity]]
90: | [[Electrical conductivity]]
93: | [[Thermal conductivity]] - Germanium (8776 bytes)
9: ...valign="center" | [[Silicon|Si]]<br>'''Ge'''<br>[[Tin|Sn]] <br> <br>
12: ...[Periodic table (standard)|Full table]]</small></div>
24: | [[group 14 element|14 (IVA)]], [[period 4 element|4]], [[p-block|p]]
63: | [[Melting point]]
86: | [[Electronegativity]] - Gold (24329 bytes)
7: | colspan="2" align="center" | [[platinum]] – '''gold''' – [[mercury (element...
12: ...[Periodic table (standard)|Full table]]</small></div>
64: | [[Melting point]]
87: | [[Electronegativity]]
93: | [[Electrical conductivity]] - Lutetium (10459 bytes)
11: ...[Periodic table (standard)|Full table]]</small></div>
62: | [[Melting point]]
85: | [[Electronegativity]]
91: | [[Electrical conductivity]]
94: | [[Thermal conductivity]] - Aluminium (26079 bytes)
12: {{Elementbox_meltingpoint | k=933.47 | c=660.32 | f=1220.58 }}
48: ...ance to oxidation (due to the phenomenon of [[passivation]]), its strength, and its light weight. Alum...
52: ...ion]] resistance and durability due to the protective oxide layer. It is also nonmagnetic and nonspark...
58: ...n [[mirror]]s are made using a thin reflective coating of aluminium on the back surface of a sheet of [...
66: ...mission lines]] (although its [[electrical conductivity]] is only 60% that of [[copper]], it's lighter...
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