yes
Ionic compounds consist of cations (positively charged ions) and anions (negatively charged ions) held together by electrostatic forces. These ions typically form a crystal lattice structure in a repeating pattern. The most common elements in ionic compounds are metals as cations and nonmetals as anions.
In ionic binary compounds, cations are always positively charged ions that are formed from metals. In covalent binary compounds, cations are not present as the bonding is through the sharing of electrons between nonmetals.
A complete ionic equation shows all ions present in a chemical reaction, including spectator ions that do not participate in the reaction. It separates all aqueous compounds into their respective cations and anions.
The positive ions and negative ions attract each other. This attractive force is an ionic bond. Each positive ion balances the charge of one negative ion so overall, the compound is electrically neutral. P.S. This is from my textbook. Good luck. :)
No, covalent molecular compounds are not conductive because they consist of molecules held together by covalent bonds, which do not allow the flow of electric current as they do not have freely moving charged particles.
Ionic compounds consist of cations (positively charged ions) and anions (negatively charged ions) held together by electrostatic forces. These ions typically form a crystal lattice structure in a repeating pattern. The most common elements in ionic compounds are metals as cations and nonmetals as anions.
In ionic binary compounds, cations are always positively charged ions that are formed from metals. In covalent binary compounds, cations are not present as the bonding is through the sharing of electrons between nonmetals.
consist is a present tense
The form is "consist/consists".
The answer is 0,12.10ex23 sodium cations.
In ionic binary compounds, cations are positively charged ions that give up electrons to become stable. The type of cation present in a binary compound depends on the elements involved in the compound. For example, sodium forms Na+ cations while magnesium forms Mg2+ cations. Each cation has a different charge and properties based on its atomic structure.
The characteristic colors of compounds are typically caused by the specific arrangement of electrons in the transition metal ions present in the compound. Transition metals exhibit a range of colors due to their ability to absorb certain wavelengths of light. The color observed is a result of the absorbed light that is not transmitted or reflected.
A complete ionic equation shows all ions present in a chemical reaction, including spectator ions that do not participate in the reaction. It separates all aqueous compounds into their respective cations and anions.
Carbon is present in all organic compounds.
Calcium is present in many minerals, but not in elemental form. Calcium cations are the chemical species present in minerals.
no it should be consisted
The positive ions and negative ions attract each other. This attractive force is an ionic bond. Each positive ion balances the charge of one negative ion so overall, the compound is electrically neutral. P.S. This is from my textbook. Good luck. :)