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they have diferent temp. also the ionic compounds dont melt they steam

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How do ionic compounds and molecular compounds differ in their relative melting and bioling points?

Ionic compounds tend to have higher melting and boiling points compared to molecular compounds. This is because ionic bonds are generally stronger than the intermolecular forces present in molecular compounds, such as van der Waals forces. The strong electrostatic forces between ions in an ionic compound require more energy to overcome, leading to higher melting and boiling points.


How can you determine whether a compound is ionic or molecular?

You can determine whether a compound is ionic or molecular based on the types of elements it contains. Ionic compounds typically consist of a metal and a nonmetal, while molecular compounds are made up of nonmetals only. Additionally, ionic compounds tend to have high melting and boiling points, while molecular compounds have lower melting and boiling points.


How are molecular compounds different from an ionic compound?

Molecular compounds consist of covalent bonds formed by sharing electrons between atoms, while ionic compounds involve the transfer of electrons from one atom to another, resulting in the formation of positive and negative ions. Molecular compounds typically have lower melting and boiling points compared to ionic compounds and are often composed of nonmetals. Ionic compounds tend to have higher melting and boiling points, are composed of metals and nonmetals, and form crystalline lattices.


Compared with ionic compounds solid molecular compounds generally?

have lower melting and boiling points, exist as discrete molecules, and do not conduct electricity in the solid state.


Is an ionic compound a molecular compound?

No, an ionic compound is not considered a molecular compound. Ionic compounds form when positive and negative ions are attracted to each other through electrostatic forces, while molecular compounds consist of covalently bonded atoms sharing electrons.

Related Questions

How do ionic compounds and molecular compounds differ in their relative melting and bioling points?

Ionic compounds tend to have higher melting and boiling points compared to molecular compounds. This is because ionic bonds are generally stronger than the intermolecular forces present in molecular compounds, such as van der Waals forces. The strong electrostatic forces between ions in an ionic compound require more energy to overcome, leading to higher melting and boiling points.


How are the melting points and the boiling points of molecular compounds different from ionic compounds?

Ionic bonds are significantly resistant to heat, while molecular bonds are broken more easily with the addition of heat energy. Due to this, ionic compounds have much higher boiling points than molecular substances in most cases.


How can you determine whether a compound is ionic or molecular?

You can determine whether a compound is ionic or molecular based on the types of elements it contains. Ionic compounds typically consist of a metal and a nonmetal, while molecular compounds are made up of nonmetals only. Additionally, ionic compounds tend to have high melting and boiling points, while molecular compounds have lower melting and boiling points.


How can melting point and boiling point determination be used in identifying and or characterizing unknown compounds?

Melting point and boiling point determination can help in identifying unknown compounds by comparing the experimental values with known values in databases. A match can indicate the compound's identity. Additionally, the range of melting point and boiling point can provide information on the purity and molecular structure of the compound.


How do you differentiate simple molecular compounds and giant molecular compounds?

Simple molecular compounds have discrete molecules held together by weak intermolecular forces, while giant molecular compounds have repeating units bonded together by strong covalent bonds. Simple molecular compounds typically have low melting and boiling points and are often gases or liquids at room temperature, while giant molecular compounds tend to have high melting and boiling points and are usually solids at room temperature.


How are the properties of molecular compounds poor conducters of electricity?

Because have lower melting points and boiling points


What are two major characteristics of molecular compounds?

Low melting and boiling points. Some are polar and some are nonpolar. Those that are polar will dissolve in water. They also do not conduct electricity.


How are molecular compounds different from an ionic compound?

Molecular compounds consist of covalent bonds formed by sharing electrons between atoms, while ionic compounds involve the transfer of electrons from one atom to another, resulting in the formation of positive and negative ions. Molecular compounds typically have lower melting and boiling points compared to ionic compounds and are often composed of nonmetals. Ionic compounds tend to have higher melting and boiling points, are composed of metals and nonmetals, and form crystalline lattices.


Compared with ionic compounds solid molecular compounds generally?

have lower melting and boiling points, exist as discrete molecules, and do not conduct electricity in the solid state.


Why do molecular compounds have low melting points and low boiling points relative ionic substances?

The bonds in the molecule are weaker.


Is an ionic compound a molecular compound?

No, an ionic compound is not considered a molecular compound. Ionic compounds form when positive and negative ions are attracted to each other through electrostatic forces, while molecular compounds consist of covalently bonded atoms sharing electrons.


What causes the differences in melting points and boiling points between ionic and covalent compounds molecular substances?

The differences in melting and boiling points between ionic and covalent compounds are due to the strength of the intermolecular forces present. Ionic compounds have strong electrostatic forces of attraction between oppositely charged ions, resulting in higher melting and boiling points. Covalent compounds have weaker intermolecular forces such as London dispersion forces or dipole-dipole interactions, leading to lower melting and boiling points compared to ionic compounds.