High. Second only to covelant bonds.
No. They have very high melting points because they are extremely strong. This is because of the transfer of electrons between the atoms in the bond. Molecular generally have low melting points.
Ionic bonds form when one element transfers electrons to another element. This occurs when an element with a high electron affinity (EA) transfers electrons to an element with a low ionization energy (IE). The transfer of electrons creates ions that are held together by electrostatic forces, forming an ionic bond.
Ionic solids typically have high melting points due to the strong electrostatic forces binding the positive and negative ions together in a lattice structure. When heated, these bonds must be overcome, requiring a significant amount of energy, resulting in high melting points.
Atoms with low ionization energy (IE) tend to lose electrons easily to achieve a stable electron configuration, while atoms with high electron affinity (EA) tend to gain electrons readily. This makes it more favorable for atoms with low IE and high EA to form ionic bonds by transferring electrons, resulting in the formation of ions with opposite charges that are attracted to each other.
It depends on the type of structure; simple covalent structures (like water) generally have low boiling points, while giant covalent structures (like diamond) have high boiling points.
One atom is a metal and one is a nonmetal One atom has a high electronegativity value, while the other value is relatively low.
No. They have very high melting points because they are extremely strong. This is because of the transfer of electrons between the atoms in the bond. Molecular generally have low melting points.
Ionic bonds form when one element transfers electrons to another element. This occurs when an element with a high electron affinity (EA) transfers electrons to an element with a low ionization energy (IE). The transfer of electrons creates ions that are held together by electrostatic forces, forming an ionic bond.
Ionic solids typically have high melting points due to the strong electrostatic forces binding the positive and negative ions together in a lattice structure. When heated, these bonds must be overcome, requiring a significant amount of energy, resulting in high melting points.
Atoms with low ionization energy (IE) tend to lose electrons easily to achieve a stable electron configuration, while atoms with high electron affinity (EA) tend to gain electrons readily. This makes it more favorable for atoms with low IE and high EA to form ionic bonds by transferring electrons, resulting in the formation of ions with opposite charges that are attracted to each other.
Graphite is low resistance of electricity...
atoms having low Ionisation enthalpy and ones having high electronegativity form ionic bond
It depends on the type of structure; simple covalent structures (like water) generally have low boiling points, while giant covalent structures (like diamond) have high boiling points.
Sodium sulfide has a high melting point. It melts at around 1180°C (2156°F) due to its strong ionic bonds.
One atom is a metal and one is a nonmetal One atom has a high electronegativity value, while the other value is relatively low.
On a multimeter, a high resistance would indicate a high Ohmic value and a low resistance would indicate a low Ohmic value. Specific values would be relative to device you are measuring.
It depends on the application. Voltmeters have a high internal resistance, while ammeters have a low internal resistance.