The melting point of mercury is -38,83 0C.
The boiling point of mercury is 356,73 0C.
Mercury Hg -38.8' Now you could consider Hydrogen to be a metal if you are willing to get creative with the definition of metal. In that case it would be −259.16 °C
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.
Melting and boiling points are not as straightforward to predict based on periodic trends as properties like atomic size or ionization energy. They are influenced by various factors such as intermolecular forces, molecular weight, and molecular structure. While general trends can be observed within a group or period, there are often exceptions due to these complex interactions.
Tungsten, which has the atomic number 74 and is located in Period 6, has the highest melting point of all the elements in Period 4.
In period 6, group 12 of the periodic table, mercury is the only liquid metal. It's the only metal that is liquid at room temperature. Mercury is known for its unique properties, such as high density and low melting point.
Mercury Hg -38.8' Now you could consider Hydrogen to be a metal if you are willing to get creative with the definition of metal. In that case it would be −259.16 °C
Generally melting point and boiling point increase up to group 6 and then decrease.
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.
The melting phase is a period in time where an object is melting but not completely melted.
Depending on the editor of the periodic table: name, symbol, atomic number, density, electron configuration, group, period, melting point, boiling point etc.
Melting and boiling points are not as straightforward to predict based on periodic trends as properties like atomic size or ionization energy. They are influenced by various factors such as intermolecular forces, molecular weight, and molecular structure. While general trends can be observed within a group or period, there are often exceptions due to these complex interactions.
Tungsten, which has the atomic number 74 and is located in Period 6, has the highest melting point of all the elements in Period 4.
Mercury's rotation period is 59 Earth days.
Mercury has the shortest period of revolution around the Sun, at approximately 88 Earth days.
The physical properties of transition metals are determined by their electron configurations. Most transition metals are hard solids with relatively high melting and boiling points. Differences in properties among transition metals are based on the ability of unpaired d electrons to move into the valence level. The more unpaired electrons in the d sublevel, the greater the hardness and the higher the melting and boiling points.
In period 6, group 12 of the periodic table, mercury is the only liquid metal. It's the only metal that is liquid at room temperature. Mercury is known for its unique properties, such as high density and low melting point.
Sodium (Na) has the lowest first ionization energy in period 3.