Oh, dude, osmium is a naturally occurring element that exists in a solid state at room temperature. It's like super dense and heavy, so you wouldn't want to accidentally drop a chunk of it on your foot. Just imagine a tiny, solid osmium disco party happenin' on the Periodic Table.
At 4000 deg C it is already in liquid form. At 5008 deg C it will evaporate. Further heating will simply make the vapours hotter.
state of matter
Heterogenous state: (thick) liquid with (undissolved, very fine) solid particles.
A compound that can be separated by electrolysis must be in the LIQUID state of matter.
In science, another word for state may be phase. For instance a state of matter is also called a phase of matter.
The natural state of matter of the element tellurium is solid at room temperature.
solid
Solid
Osmium has varying states of reactivity. Its pure state tends be quite reactive and is rarely used unless alloyed. Osmium tetroxide is extremely reactive, whereas osmium dioxide has very little reactivity.
The change of state that occurs when osmium is heated from 4000Β°C to 6000Β°C is sublimation. Osmium sublimes directly from a solid to a gas without passing through a liquid phase.
Tantalum is a solid at room temperature and pressure, making it the natural state of matter for this element.
At 1000 degrees Celsius, osmium would be in its solid state as it has a melting point of 3033 degrees Celsius. Osmium is a very dense and hard metal known for its blue-gray appearance.
Osmium has 7 natural isotopes.192Os (41%)190Os (26%)189Os (16%)188Os (13%)187Os (2%)186Os (2%)184Os (traces).
Osmium, under standard atmospheric conditions, is found as a solid. If heated to high enough temperatures, it can also be found as a liquid and as a gas.
Osmium is the densest element in nature at a density of 22.61
Osmium is a naturally occurring chemical element with the symbol Os and atomic number 76. It is a hard, brittle, bluish-white transition metal. An example of osmium is osmium tetroxide (OsO4), which is a highly toxic and volatile compound used in various chemical reactions, particularly in organic synthesis and staining biological samples for electron microscopy.
The oxidation number of osmium in OsO3F2 is +6. In osmium trioxide (OsO3), each oxygen atom has an oxidation number of -2, so the sum of oxidation numbers of all atoms in the compound must equal the charge of the compound which is zero. Since there are two fluorine atoms each with an oxidation number of -1 in OsO3F2, the oxidation number of osmium must be +6 to balance the charges.