No. The element C (carbon) is a nonmetal, not a metal. It does have the highest melting point of all the elements, though.
The element with the highest melting point in its group is carbon. Specifically, graphite has the highest melting point among the carbon allotropes, which is higher than the melting points of other elements in its group.
human bones have the highest melting and boiling point we can see this in funerels where bones get burnt at last
Solids made of atoms
These are some metals and salts.
No. The element C (carbon) is a nonmetal, not a metal. It does have the highest melting point of all the elements, though.
The element with the highest melting point in its group is carbon. Specifically, graphite has the highest melting point among the carbon allotropes, which is higher than the melting points of other elements in its group.
Elements have fixed melting and boiling points, while compounds have varying melting and boiling points depending on their composition. Mixtures do not have fixed melting and boiling points, as they are composed of multiple substances which each have their own individual melting and boiling points.
At 6000K all elements will turn into a gas.there could be hundreds of unknown elements in space so there could be even higher melting points
Water it can melt in the boiling point and in the boiling point the water (ice) practically turns into a liquid (water) then into a gas
human bones have the highest melting and boiling point we can see this in funerels where bones get burnt at last
The general trend of melting points of elements on the periodic table increases from left to right across a period and decreases down a group.
It varies. Boron and thallium both have relatively high melting points while gallium and indium have very low melting points.
in column two
Solids made of atoms
The melting points for non-metals range from the lowest for all elements to the highest. The melting point for Helium is effectively 0 K (-273.15 deg C) whereas that for Carbon is 3823 K (3550 deg C).
Melting points increase with atomic weight for elemental halogens (the second-most right column in a periodic table). The heavier the atom, the harder to turn it into a liquid. The lightest halogens, such as Florine (F) and Chlorine (Cl) are gasses at room temperature, having "melted" and "boiled" at lower (colder) temperatures. The two heaviest halogens are Iodine (I) and Astatine (At). Astatine is very rare, but Iodine is common and is a solid at room temperature. The have the highest melting points of halogens. Remember, F down to At increase in melting points. F and Cl are gases, so they have low melting point. Br is a liquid, so it has a higher melting point. I and At are solids so it takes more heat to melt them.