Asked by wiki user.
Iodine phase at room temperature.
When pressure is controlled other pure elements may be found at room temperature.
There is an increase in entropy as solid iodine i2 s sublimes into iodine vapor i2 g because in the gaseous phase energy is more readily dispersed.
The reaction of i2 s subliming to i2 g is.
Wiki user answered.
Due to the reduction in carrier concentration from 1 26 10 20 cm 3 for agcute to 5 35 10 19 cm 3 for agcute 0 9 i 0 1 the seebeck coefficient and power factor were enhanced.
The phase transition in agcute was successfully avoided by introducing a stable cubic phase at room temperature via iodine doping.
A radioactive isotope of iodine iodine 131 is used to treat some diseases of the thyroid gland.
It is the third lightest halogen and is a fuming red brown liquid at room temperature that evaporates readily to form a similarly coloured gas.
Iodine i2 s pulls o2 from the air as it self oxidizes under sublimation to i2 g.
Iodine is interesting because it is easy to make solid iodine go into the gas state.
Phase at room temperature.
Although the concentration of iodine in the earth s crust is only around 0 3 to 0 5 ppm it can be obtained in large quantities from sea water sea kelp brine or brackish water.
An example is the halogen element chlorine.
Potassium iodide ki is used to make photographic film and when mixed with iodine in alcohol as an antiseptic for external wounds.
Iodine is used as a test for starch and turns a deep blue when it comes in contact with it.
Plus unlike many gases iodine vapor has a distinct purple color and is easy to see.
While temperature is an easily controlled factor manipulating pressure is another way to cause a phase change.
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Solid iodine slowly sublimes goes from the solid state to the vapor at room temperature.
A the contact of iodine i2 s with the water vapor in the air causes the sublimation process.
It s easy to accelerate this process by supplying a little heat.
Its properties are thus intermediate between those of chlorine and iodine isolated independently by two chemists carl jacob löwig in 1825 and antoine jérôme balard in 1826.
That state of matter of an element may be predicted based on its phase diagram.
