Search results
|
No page with that title exists You can create an article with this title or put up a request for it. Please search Wikipedia before creating an article to avoid duplicating an existing one, which may have a different name or spelling.
Showing below up to 20 results starting with #1.
View (previous 20) (next 20) (20 | 50 | 100 | 250 | 500).
No article title matches
Page text matches
- Thyroid (5421 bytes)
3: ...|endocrine]] gland. It is situated on the front side of the neck at the level of C5 and T1 vertebral b...
14: ... epithelial cell]]s, which secrete T3 and T4. Inside the follicles is a colloid which is rich in a pro...
18: ...bly enlarged, resulting in the swollen necks of endemic [[goitre]].
22: ...nthetic thyroxine, which enables them to grow and develop normally.
24: ...hyroid [[cancer]]s in the years following the accident. [http://news.bbc.co.uk/hi/english/sci/tech/new... - Tropical cyclone (34538 bytes)
6: ...rom the equatorial region toward the higher latitudes.
9: ...ation]] from water vapor condensing at high altitudes. Because of this, a tropical cyclone can be thou...
11: The ingredients for a tropical cyclone include a pre-existing weather disturbance, warm tropical...
13: ...water, which provides the atmospheric moisture needed. The evaporation of this moisture is driven by t...
16: ...ons, tropical storms and a third group whose name depends on the region. - Cadmium (10755 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
25: | [[Density]], [[Mohs hardness scale|Hardness]]
42: | [[van der Waals radius]]
51: | [[Oxidation state]]s ([[Oxide]]) - Curium (8593 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
20: | [[actinide]]s
39: | [[van der Waals radius]]
48: | [[Oxidation state]]s ([[Oxide]]) - Dysprosium (8843 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
19: | [[Lanthanide]]s
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]] - Europium (8579 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
19: | [[Lanthanide]]s
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]] - Gadolinium (9860 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
19: | [[Lanthanide]]s
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]] - Iodine (11416 bytes)
1: ...of data; skip past it to edit the text. -->{| border="0" align="right" style="margin-left:0.5em"
3: {| border="1" cellpadding="2" cellspacing="0" align="right...
5: {| align="center" border="0"
25: | [[Density]], [[Mohs hardness scale|Hardness]]
42: | [[van der Waals radius]] - Lutetium (10459 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
20: | [[Lanthanide]]s
25: | [[Density]], [[Mohs hardness scale|Hardness]]
42: | [[van der Waals radius]] - Neodymium (12345 bytes)
2: <table border="1" cellpadding="2" cellspacing="0" align="right...
4: <table align="center" border="0">
16: ...] </td><td>[[Lanthanide]]s</td></tr>
20: <td>[[Density]], [[Mohs hardness scale|Hardness]] </td>...
32: <td>[[van der Waals radius]] </td><td>... - Potassium (12496 bytes)
2: <table border="1" cellpadding="2" cellspacing="0" align="right...
4: <table align="center" border="0">
21: <td>[[Density]], [[Mohs hardness scale|Hardness]] </td>...
33: <td>[[van der Waals radius]] </td><td>...
39: <td>[[Oxidation state]]s ([[Oxide]]) </td><td>1 (strong [[Base (che... - Praseodymium (9138 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
19: | [[Lanthanides]]
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]] - Protactinium (7744 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]]
50: | [[Oxidation state]]s ([[Oxide]]) - Radium (13138 bytes)
1: <table border="1" cellpadding="2" cellspacing="0" align="right...
3: <table align="center" border="0">
7: ...lign="center">[[image:Ra-TableImage.png|Click for description]]<br>
12: <th colspan="2" align=center bgcolor="#FFDEAD">'''General'''</th></tr>
20: <td>[[Density]], [[Mohs hardness scale|Hardness]]</td><td>... - Samarium (10157 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
19: | [[Lanthanide]]s
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]] - Scandium (10820 bytes)
2: <table border="1" cellpadding="2" cellspacing="0" align="right...
4: <table align="center" border="0">
20: <td>[[Density]], [[Mohs hardness scale|Hardness]] </td><td...
32: <td>[[van der Waals radius]] </td><td>no data</td></tr>
38: <td>[[Oxidation state]]s ([[Oxide]]) </td><td>3 (weak [[Base (chemistry)|base]])</t... - Silver (15157 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]]
50: | [[Oxidation state]] ([[Oxide]]) - Terbium (7841 bytes)
2: {| border="1" cellpadding="2" cellspacing="0" align="right...
4: {| align="center" border="0"
19: | [[Lanthanide]]s
24: | [[Density]], [[Mohs hardness scale|Hardness]]
41: | [[van der Waals radius]] - Thallium (12570 bytes)
2: <table border="1" cellpadding="2" cellspacing="0" align="right...
4: <table align="center" border="0">
21: <td>[[Density]], [[Mohs hardness scale|Hardness]] </td>...
33: <td>[[van der Waals radius]] </td><td>...
39: <td>[[Oxidation state]]s ([[Oxide]]) </td><td>3,'''1''' (mildly [[B... - Mineral (10947 bytes)
1: ...f known forms (organic compounds are usually excluded). The study of minerals is called [[mineralogy]...
5: == Mineral definition and classification ==
7: ...eral-like substances that don't strictly meet the definition are sometimes classified as [[mineraloid]...
9: ...e irregularly shaped the crystal structure can be determined by [[x-ray]] analysis and/or [[optical]] ...
11: ...rom [[lead]] and [[sulfur]]) and [[periclase]] (made from [[magnesium]] and [[oxygen]]) all share the ...
View (previous 20) (next 20) (20 | 50 | 100 | 250 | 500).