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Is the boiling point of sodium high or low?
The boiling point of sodium is relatively low compared to many other metals. Specifically, sodium boils at about 883 degrees Celsius (1621 degrees Fahrenheit). This low boiling point is characteristic of alkali metals, which tend to have lower melting and boiling points compared to transition metals.
Why chromium have high boiling point?
Chromium is a metal and metals tend to have high boiling points.
What type of element has a high boiling point and is a good electrical conduction?
metals
What is the melting and boiling point of metals?
Which metal needs to be specified. Look in a Chemistry book or reference book. All metals have their own melting and boiling points - that's one of the ways we identify which metal the item is made of.
What is the boiling point for Seaborgium?
The boiling point of seaborgium is not precisely known due to its limited availability and short half-life. However, as a synthetic element, seaborgium is expected to exhibit similar properties to its neighboring elements in the periodic table and would likely have a high boiling point characteristic of transition metals.
Is the boiling point of sodium high or low?
The boiling point of sodium is relatively low compared to many other metals. Specifically, sodium boils at about 883 degrees Celsius (1621 degrees Fahrenheit). This low boiling point is characteristic of alkali metals, which tend to have lower melting and boiling points compared to transition metals.
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.
Why chromium have high boiling point?
Chromium is a metal and metals tend to have high boiling points.
Which are the characteristics of transition metals?
High density, High melting point, Nonreactive
What is one key physical difference between transition metals and poor metals?
One key physical difference between transition metals and poor metals is that transition metals have high melting and boiling points compared to poor metals. Transition metals also tend to be more malleable and ductile, while poor metals are typically softer and have lower melting points.
Why do metals share properties with other transition metals in their period?
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.
What type of element has a high boiling point and is a good electrical conduction?
metals
Which have the high melting pointmetal or metaloids or transitionmetal?
Usually the transition metals. (Tungsten has the highest melting point of all the metals.)
What is the melting and boiling point of metals?
Which metal needs to be specified. Look in a Chemistry book or reference book. All metals have their own melting and boiling points - that's one of the ways we identify which metal the item is made of.
What is the boiling point for Seaborgium?
The boiling point of seaborgium is not precisely known due to its limited availability and short half-life. However, as a synthetic element, seaborgium is expected to exhibit similar properties to its neighboring elements in the periodic table and would likely have a high boiling point characteristic of transition metals.
What is the freezing point and boiling point of a metal?
The freezing and boiling points of metals vary depending on the specific metal. For example, the freezing point of iron is around 1,538°C and the boiling point is about 2,861°C. Metals generally have high melting and boiling points compared to non-metals due to their metallic bonding.
Does beryllium have a high or low boiling point?
Beryllium has a very high boiling point, around 2,970 degrees Celsius. This is due to its strong metallic bonds, which require a large amount of energy to break and transition from solid to liquid and then to gas.
