No CH3OH is a covalent compound because
An Ionic bond is formed between metals and nonmetal
As there are no metals in this compound so it cant be an ionic bond
no
Ionic bonding forms compounds.
How can you compare covalent bonding and ionic bonding with soccer
It is ionic bonding because Na is sodium which is a metal and Cl is chlorine which is a nonmetal. Ionic Bonding happens between nonmetals and nonmetals.
MgBr2 will cause the bulb to glow brightly as it is an ionic compound and produces two ions per molecule . On the other hand, CH3OH is an organic compoound which is merely dissolved in water due to intermoleculer hydrogen bonding and is not a good electrolyte!
no
CH3OH is molecular.
yes
Ionic bonding forms compounds.
How can you compare covalent bonding and ionic bonding with soccer
It is ionic bonding because Na is sodium which is a metal and Cl is chlorine which is a nonmetal. Ionic Bonding happens between nonmetals and nonmetals.
MgBr2 will cause the bulb to glow brightly as it is an ionic compound and produces two ions per molecule . On the other hand, CH3OH is an organic compoound which is merely dissolved in water due to intermoleculer hydrogen bonding and is not a good electrolyte!
Ionic bonding is based on electrostatic attraction between ions.
All salts are ionic
Covalent bonding involves the sharing of electrons. Ionic bonding involves the transfer of electrons.
Ionic and covalent bonding involve electrons. Ionic bonding involves the loss and gain of electrons, form ions. Covalent bonding involves the sharing of electrons.
NaOH has the higher melting point. The reason is since NaOH is an ionic compound, thus meaning that the intermolecular forces (the forces that hold the compound together) between Sodium+ and Hydroxide- are ionic - ionic forces. The charges keep them together. Ionic forces are ALOT stronger than other intermolecular forces such as dispersion, dipole-dipole, or even hydrogen bonding. CH3OH (Methanol) has a lower melting point that Sodium Hydroxide since the intermolecular forces it entails are: Dispersion, dipole-dipole, and hydrogen bonding between Hydrogen and Oxygen. It will take LESS energy to break these attractions, than the energy required to break the attraction forces between the ionic compound NaOH.