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1)high melting and boiling points 2)solubility 3)Electrolytes

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Why electrovalent compounds are usually hard crystals yet brittle?

Electrovalent compounds have strong ionic bonds between the cations and anions, which contribute to their hardness. However, these ionic bonds have limited flexibility, making the crystals rigid and prone to shattering when subjected to stress, resulting in brittleness.


Why electrovalent compound does not show isomerism?

Electrovalent compounds, also known as ionic compounds, do not show isomerism because their structure is determined by the arrangement of oppositely charged ions rather than the orientation of atoms. Isomerism requires a different arrangement of atoms in a molecule, which is not possible in ionic compounds as they exist as a three-dimensional array of ions held together by strong electrostatic forces.


What is Ionic Compound also known as?

Ionic compounds are also known as electrovalent compounds due to their formation through the transfer of electrons between atoms to achieve a stable electron configuration.


What is another name for the electrovalent bond?

Another name for the electrovalent bond is an ionic bond.


What are alicyclic compounds?

Alicyclic compounds are organic compounds that contain one or more carbon-carbon rings, but do not have aromatic properties like benzene. These compounds can be classified as cycloalkanes (saturated alicyclic compounds) or cycloalkenes (unsaturated alicyclic compounds). They are commonly found in natural products and can exhibit diverse chemical and physical properties.

Related Questions

What type of bonding for the compounds oxygen and nitrogen?

electrovalent bond


Why electrovalent compounds conduct electricity?

Electrovalent compounds, or ionic compounds, conduct electricity because they have ions that are free to move and carry an electric charge. When an electric field is applied, these charged particles can move and carry the electric current through the compound.


Why electrovalent compounds are usually hard crystals yet brittle?

Electrovalent compounds have strong ionic bonds between the cations and anions, which contribute to their hardness. However, these ionic bonds have limited flexibility, making the crystals rigid and prone to shattering when subjected to stress, resulting in brittleness.


What are 3 essential properties of every material?

elements and compounds


Why electrovalent compound does not show isomerism?

Electrovalent compounds, also known as ionic compounds, do not show isomerism because their structure is determined by the arrangement of oppositely charged ions rather than the orientation of atoms. Isomerism requires a different arrangement of atoms in a molecule, which is not possible in ionic compounds as they exist as a three-dimensional array of ions held together by strong electrostatic forces.


Why do electrovalent compounds have high melting and boiling points?

Electrovalent compounds have high melting and boiling points because they have strong electrostatic forces of attraction between the positively charged metal ions and negatively charged non-metal ions. These forces require a significant amount of energy to overcome, resulting in high melting and boiling points for these compounds.


What are the compounds that change the properties of glass?

What compounds Change the properties of glass?


What are four unique characteristics of compounds?

Properties of Compounds A compound has unique properties that are distinct from the properties of its elemental constituents.


What is Ionic Compound also known as?

Ionic compounds are also known as electrovalent compounds due to their formation through the transfer of electrons between atoms to achieve a stable electron configuration.


What is another name for the electrovalent bond?

Another name for the electrovalent bond is an ionic bond.


How many kinds of bond?

Three(3) ----viz.--1.Electrovalent,2.Covalent, & 3.Cordinate-covalent.


Do compounds not have the same properties as the elements that formed them?

True. Compounds do not have the same properties as the elements that form them.