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∙ 14y agoi would say Ionic compounds tend to have higher melting points
Wiki User
∙ 14y agoThe type of chemical bonds in a compound can influence its melting point. Compounds with stronger bonds, such as ionic or network covalent bonds, tend to have higher melting points due to the greater amount of energy required to break these bonds. Compounds with weaker bonds, such as metallic or molecular bonds, typically have lower melting points.
It depends on the specific compound. Some compounds will melt when heated to a certain temperature, while others may decompose, ignite, or undergo chemical reactions instead of melting. The melting point of a compound is a characteristic physical property that varies depending on the compound's chemical structure.
A covalent compound is a chemical compound formed by the sharing of electron pairs between atoms. These compounds typically have lower melting and boiling points compared to ionic compounds, and they are commonly found in organic compounds. They are also known as molecular compounds.
The chemical compound for Be2N2 is beryllium nitride. It is composed of beryllium (Be) and nitrogen (N) atoms in a 2:2 ratio. It is a binary compound with a high melting point and is mainly used in the semiconductor industry.
The melting point of alum, which is a chemical compound composed of aluminum and potassium sulfate, is approximately 92-95 degrees Celsius.
Ionic compounds are typically formed between a metal and a nonmetal. One way to identify an ionic compound is by looking at its chemical formula; if the formula contains a metal and a nonmetal, it is likely an ionic compound. Ionic compounds also tend to have high melting and boiling points due to strong electrostatic forces between ions.
Melting point is important in organic chemistry because it can be used for the identification of a compound. For pure solid organic compounds will have a small melting point range (0.5-10C),thus presence of impurity can also be find out by Melting point.
There are many compounds with a melting point of 104 degrees Celsius. These compounds often have differences in other characteristics, such as polarity, number of atoms, and its types of intermolecular interactions.
No, a melting point is not a chemical change. Melting is a physical change in which a substance changes from a solid to a liquid state without changing its chemical composition.
It depends on the specific compound. Some compounds will melt when heated to a certain temperature, while others may decompose, ignite, or undergo chemical reactions instead of melting. The melting point of a compound is a characteristic physical property that varies depending on the compound's chemical structure.
Melting doesn't change the composition of a compound (substance).Burning is a chemical reaction, an oxidation - new compounds are formed.
A covalent compound is a chemical compound formed by the sharing of electron pairs between atoms. These compounds typically have lower melting and boiling points compared to ionic compounds, and they are commonly found in organic compounds. They are also known as molecular compounds.
When salt is applied to ice a chemical reaction occurs in which the melting point is lowered in the ice (therefor it is used in the winter time to melt ice). In all chemical reactions there is a set ration in which the substances will react, so therefor yes, there is a relationship between the amount of salt and ice.
is the same
A covalent compound is a chemical compound formed by the sharing of electrons between atoms. This type of bond is typically found between nonmetal atoms. Covalent compounds often have relatively low melting and boiling points compared to ionic compounds.
The natural element with the highest melting point is good old Carbon! Its melting point is 3527 degrees, C. The element with the second highest melting point is Tungsten at 3422 degrees, C.
The chemical compound for Be2N2 is beryllium nitride. It is composed of beryllium (Be) and nitrogen (N) atoms in a 2:2 ratio. It is a binary compound with a high melting point and is mainly used in the semiconductor industry.
The melting point of alum, which is a chemical compound composed of aluminum and potassium sulfate, is approximately 92-95 degrees Celsius.