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The cause of polarity of a covalent bond is the difference in electronegativity between the atoms being bonded. The more electronegative atom involved in the bond attracts the electrons more than the less electronegative. If you want to know the reason for electronegativity then follow the link.
The energy which is released when atoms cause heat is thermal energy.
it causes the atoms to lose their negative electrons
When a few atoms undergo fission, they cause many more atoms to split; this process is called an atomic bomb.
The arrangement of atoms in a mineral sample can cause the formation of crystals.
A large difference in electronegativity values between the two atoms forming the bond will cause the bond to be ionic. The electrons from the less electronegative atom will be completely donated to the atom with the greater electronegativity. This occurs when a metal and a non metal bond.
The cause of polarity of a covalent bond is the difference in electronegativity between the atoms being bonded. The more electronegative atom involved in the bond attracts the electrons more than the less electronegative. If you want to know the reason for electronegativity then follow the link.
No, it's not possible. Ionic compounds are formed when one metal looses electrons and forms cation while a non-metal gains that electron forming an anion . But in this case, no cation is formed. Hence, two non-metals cannot form an ionic compound. Two non-metals can only form covalent compounds.
They cause the atoms to become "excited."
Most atoms tend to undergo chemical reactions combining in ways that cause their atoms to become more stable
The energy which is released when atoms cause heat is thermal energy.
it causes the atoms to lose their negative electrons
When a few atoms undergo fission, they cause many more atoms to split; this process is called an atomic bomb.
atoms
The arrangement of atoms in a mineral sample can cause the formation of crystals.
Water
An ionic compound dissolved in water form cations and anions.