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Very high. For example, sodium (Na) has a boiling point of 883 degrees C, and iron has a boiling point of 2750.0 degrees C, and gold has a boiling point of 2600 degrees C. You can probably find a Period Table that includes the boiling points of all the elements and much more information.
What else can I help you with?
Is the boiling point of metalloids high?
The boiling point of metalloids is not so high.
Where elements on the periodic table with the highest boiling points app?
Elements with the highest boiling points are typically found in the group of transition metals and some metalloids. For example, tungsten (W) has one of the highest boiling points at around 5,555°C. These elements often have strong metallic bonds and a dense atomic structure, which contribute to their elevated boiling points. Additionally, some heavy noble gases like radon also exhibit high boiling points, but generally, the trend is seen among the transition metals.
Why chromium have high boiling point?
Chromium is a metal and metals tend to have high boiling points.
Why use vacuum distillation on compounds with high boiling points?
Vacuum distillation lowers the boiling point of the compound by reducing the pressure in the system, which helps prevent thermal degradation or decomposition of the compound at high temperatures. This is especially useful for compounds with high boiling points that may decompose or react at their normal boiling points.
How is high melting and boiling points related to the structure of the compounds?
The structure of a compound will dictate what intermolecular forces hold the molecules together. The stronger these forces, the higher will be the boiling point.
Is the boiling point of metalloids high?
The boiling point of metalloids is not so high.
Where elements on the periodic table with the highest boiling points app?
Elements with the highest boiling points are typically found in the group of transition metals and some metalloids. For example, tungsten (W) has one of the highest boiling points at around 5,555°C. These elements often have strong metallic bonds and a dense atomic structure, which contribute to their elevated boiling points. Additionally, some heavy noble gases like radon also exhibit high boiling points, but generally, the trend is seen among the transition metals.
Why chromium have high boiling point?
Chromium is a metal and metals tend to have high boiling points.
Does chromium have a high or low boiling point?
Chromium has a high boiling point as opposed to nonmetals. Metals tend to have high boiling points.
What have high melting and boiling points?
metals
What are metals on the periodic table and how do their properties differ from nonmetals and metalloids?
Metals on the periodic table are elements that are typically shiny, malleable, and good conductors of heat and electricity. Their properties differ from nonmetals and metalloids in that metals tend to be more ductile, have higher melting and boiling points, and are more reactive. Nonmetals, on the other hand, are typically brittle, poor conductors of heat and electricity, and have lower melting and boiling points. Metalloids have properties that are intermediate between metals and nonmetals.
Which Hg compounds have boiling points exceeding 1100C?
No mercury compound has a boiling point as high as this.
How are melting and boiling points affected as altitude is increased?
Boiling point decrease at high altitude.
Do ionic compounds have high boiling points?
As a generalization, yes.
Why use vacuum distillation on compounds with high boiling points?
Vacuum distillation lowers the boiling point of the compound by reducing the pressure in the system, which helps prevent thermal degradation or decomposition of the compound at high temperatures. This is especially useful for compounds with high boiling points that may decompose or react at their normal boiling points.
What are two properties of ionic compounds.?
1)brittleness 2)high melting points 3)high boiling points
Does metal have high boiling points?
It's not really sensible to answer this question because "metal" is a broad term. It's like asking are flowers red? Some are red, but not all. Generally metals have high melting and boiling points. Very few metals are liquid at or near room temperature, and some have very high boiling points. If you compare elemental metals with e.g. noble gases then clearly the metals have, in comparison, high boiling points. On the other hand some metals have lower boiling points than some ceramics.
