like an ionic charge? i think your refereing to hydrogen bonds formed between two water molecules. this occurs when the oxogen (6 electrons) and 2 hydrogens (1 electron) are covelantly bonded. when they bond, it is polar (a polar covalent bond) which means that electrons are unequally distributed (oxogen give an extra electron to each of the hydrogen) leaving the water molecule charge oppositely at each end. oxogen = - charge/ hydrogen = + charge. so the molecules work as a magnet, making weak bonds between each other.
Ionic compounds generally dissolve in water dissociating to give ions that are free to move and conduct electricity. Molten ionic compounds also have free ions and conduct electricity. Ionic compounds generally do not conduct electricity in the solid form.
Chlorine has an oxidation state of -1 when it forms an ionic compound with metals. It has an oxidation state of +1, +3, +5, or +7 when combined with nonmetals or as a free element.
In a melted ionic compound, the ions are free to move and carry electric charge, allowing the compound to conduct electricity. In a solid ionic compound, the ions are fixed in position and cannot move freely, so they are unable to carry electric charge and conduct electricity effectively.
Ionic compounds conduct electricity when dissolved in water because the ions within the compound become free to move and carry electric charge. These ions can move and carry electric current through the water, allowing it to conduct electricity.
Ionic compounds dissociate into ions when dissolved in water, allowing for the movement of charged particles and the flow of current. The ions carry electric charge and are free to move in the solution, facilitating the conduction of electricity.
Yes. Dissolving an ionic compound gives you ions in the water which are free to move in an electric field.
No, they behave in a similar way. When an ionic compound (like NaCl) dissolves, its atoms separate and become free particles within the solution.
Because, the ions are free to move about, and the solution conducts current.
Ionic compounds generally dissolve in water dissociating to give ions that are free to move and conduct electricity. Molten ionic compounds also have free ions and conduct electricity. Ionic compounds generally do not conduct electricity in the solid form.
Chlorine has an oxidation state of -1 when it forms an ionic compound with metals. It has an oxidation state of +1, +3, +5, or +7 when combined with nonmetals or as a free element.
In a melted ionic compound, the ions are free to move and carry electric charge, allowing the compound to conduct electricity. In a solid ionic compound, the ions are fixed in position and cannot move freely, so they are unable to carry electric charge and conduct electricity effectively.
Upon melting, the ions are free to move and conduct electricity.
When an ionic compound dissolves in water, it dissociates into its constituent ions, which are then surrounded by water molecules. This process allows the ions to move freely in the solution. Since electric current is carried by the movement of charged particles, the presence of these free-moving ions enables the solution to conduct electricity effectively.
Ionic compounds conduct electricity when dissolved in water because the ions within the compound become free to move and carry electric charge. These ions can move and carry electric current through the water, allowing it to conduct electricity.
Ionic compounds dissociate into ions when dissolved in water, allowing for the movement of charged particles and the flow of current. The ions carry electric charge and are free to move in the solution, facilitating the conduction of electricity.
Ionic compounds in solution can conduct electric current because the ions are free to move and carry electric charge. When an ionic compound dissolves in water, it dissociates into its constituent ions, which are then able to move and carry the electric current.
When an ionic compound dissolves in water, its ions dissociate and become free to move. These charged ions can conduct electricity by carrying electric current through the solution. The higher the concentration of dissolved ions, the greater the conductivity of the solution.