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Not quite sure what the questioner is aiming at. Group 2 halides , such as MgCl2 dissolve to give 3 ions. Compounds such as alum, KAl(SO4)2.12H2O which dissolves to give K+, Al3+, SO42- dissolve to give 3 different sorts of ions.
Yes, water can dissolve ionic compounds because of its ability to break apart the ions in the compound due to its polarity. The positively charged hydrogen atoms in water are attracted to the negative ions, while the negatively charged oxygen atoms are attracted to the positive ions, allowing the compound to dissociate and dissolve in water.
Many ionic compounds do NOT dissolve in water- such as calcium carbonate. The majority do and that is because the solvation of the ions is energetically favourable in those compounds.
When ionic compounds dissolve in water, they form ions. The positive and negative ions in the compound separate in the water due to the polar nature of water molecules. This process is known as dissociation.
When sodium nitrate is put in water, it will dissociate into sodium ions and nitrate ions. This process is known as dissolution. The compound will fully dissolve in water, forming a clear, colorless solution.
Not quite sure what the questioner is aiming at. Group 2 halides , such as MgCl2 dissolve to give 3 ions. Compounds such as alum, KAl(SO4)2.12H2O which dissolves to give K+, Al3+, SO42- dissolve to give 3 different sorts of ions.
Yes, water can dissolve ionic compounds because of its ability to break apart the ions in the compound due to its polarity. The positively charged hydrogen atoms in water are attracted to the negative ions, while the negatively charged oxygen atoms are attracted to the positive ions, allowing the compound to dissociate and dissolve in water.
Many ionic compounds do NOT dissolve in water- such as calcium carbonate. The majority do and that is because the solvation of the ions is energetically favourable in those compounds.
When ionic compounds dissolve in water, they form ions. The positive and negative ions in the compound separate in the water due to the polar nature of water molecules. This process is known as dissociation.
NaCl dissolves in water because it is an ionic compound. Because of this, when the compound is broken down into ions, the polarity of the water molecules attracts the broken down ions. This allows for the Na+ and Cl- ions to dissolve in the water. NaCl does not dissolve in benzene because benzene is a nonpolar molecule. Because it is nonpolar, the broken down ions will not be attracted to benzene.
The process by which some molecular compounds dissolve in water to form ions is called dissolution or ionization. This occurs when the polar water molecules surround and separate the individual ions in the compound, breaking the bonds holding them together. This results in the compound dissociating into its constituent ions.
When sodium nitrate is put in water, it will dissociate into sodium ions and nitrate ions. This process is known as dissolution. The compound will fully dissolve in water, forming a clear, colorless solution.
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.
When you dissolve an ionic compound in water or melt it, it can break down into its individual ions, creating a solution or molten mixture. These ions can then move freely in the solution or melt, allowing for electrical conductivity and other chemical interactions.
Acids release hydrogen+ ions (H+) when dissolved in water
The polarity of the water molecule causes an ionic compound to dissolve in water. The slightly negative oxygen atoms of the water molecules attract the positive ions, and the slightly positive hydrogen atoms of the water molecules attract the negative ions. This breaks the ionic bonds and the ions are surrounded by water molecules, preventing them from reforming ionic bonds. Refer to the related link for an illustration and more information.
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.