The trend of boiling points across a period in the periodic table should decrease from metals to nonmetals. The trend becomes more complicated between metals, the boiling point of metals tends to increase across a period.
As you go to the right it increases but when you go up and down the columns it decreases!
in column two
The periodic table contains all the chemical elements. Some periodic tables, depending on the version, includes additional information about each element, such as the melting points, boiling points, atomic masses, mass numbers, etc.
They are metals, have a high density and melting/boiling points and are in the sixth period of the periodic table.
There is no clear pattern. At room temperature (293 K), hydrogen on the left of the table is a gas, as are elements in group 18, plus one or two in each of groups 15-17. By 1615 K, amongst the elements up to uranium, all the elements in group 1, groups 12, 16, 17 and 18 and several in group 15 have reached their boiling points but none in groups 13 and 14. From groups 2 to 11, only magnesium (group 2) has reached its boiling point.
The melting point of astatine is 302 degrees C and the boiling point is 337 degrees C. This was reported on a periodic table given as a promo by Spectrum Chemicals.
The boiling point of water is 100 degrees Celsius.
Boiling Points was created on 2004-01-05.
Boiling Points ended on 2005-01-01.
A very good periodic table. See the Web Links to the left of this answer for a periodic table with melting and boiling points, and other tables with the melting and boiling points of the elements. Go to this awesome site: HTTP://WWW.MATWEB.COM and find most any comercially-available material (all metals, plastics & ceramics). You can sort by property, which makes it easy to find the best material for your application.
Ionic compounds have boiling points of
false they tend to have low boiling points