The term "aqueous" means that the compound is dissolved in water. For example, Na+ (aq) means that you have sodium ions in water.
The meaning is that this compound is dissolved in the aqueous solution; the symbol is (l).
Example: NaCl(l).
Nope. As soon as you see the symbol for calcium, you know an ionic compound is being formed.
Well it fully depends on what type of copper you have. if you have Cu1+ then when you do an ionic equation and switch the ion charges, then the compound you would get would be Cu2O. If you had Cu2+ then the compound would end up being CuO. You cant just put two things together and assume its right. You have to do an ionic equation and then balance your reaction.
No, the arrow indicates which way the reaction proceeds, often with 2 arrows being used pointing in both directions indicating the reaction is in equilibrium. The compound's mass can be calculated using the molecular mass of the compound from the periodic table.
Vinegar is a compound and a mixture, being mainly acetic acid (compound)mixed into water (another compound).
The 'object lens' in a compound microscope is closest to the object being examined.
Type your answer here... It is dissolved in water.
Nope. As soon as you see the symbol for calcium, you know an ionic compound is being formed.
there is no net ionic equation. theoretically, there would be a double replacement reaction: 2KBr (aq) + Ca(C2H3O2)2 (aq) --> CaBr2 (aq) + 2KC2H3O2 (aq) however, CaBr2 and KC2H3O2 are both soluble. net ionic equations include only the species that undergo change in an aqueous solution. since all the ions start out as being dissolved in solution, and all the ions end as being dissolved in solution, no ions undergo change, and there is not net ionic equation.
When a water molecule is being taken from the equation, that represents condensation synthesis, also known as dehydration synthesis. When a water molecule is being added to the equation, it represents hydrolysis.
This equation can be written as NaOH (aq) + HCl (aq) -> NaCl (aq) + H2O if the reaction occurs in aqueous solution. The only actual chemical reaction is between the aquated hydroxide and hydrogen ions, the chloride and sodium ions being "spectators" only.
ah yes, the alliterate organical compound question. Well, I am here to speak on behalf of OCCU the Organical Compound and Chemistry Union. We have been studying this for years and years. Residing on one specific answer. It's morally a trick question. An example of the ionic equation is only permittable under few circumstances, these not being them. Hydrogen Peroxide has a high acidity rate, leading to the acidified circulation. Aqueous Iodide much relates to Iodine, which evolves back into the theory. No way could any amiablalitonized substance be heated or cooled, or equafied. We will leave it at that. Sincerly, Dr. Newton Richard Goodman PhD Chemical Substances, Organic Chemistry, Biolody Nutrientials, Physics, and Triginometrical Chemistry. ah yes, the alliterate organical compound question. Well, I am here to speak on behalf of OCCU the Organical Compound and Chemistry Union. We have been studying this for years and years. Residing on one specific answer. It's morally a trick question. An example of the ionic equation is only permittable under few circumstances, these not being them. Hydrogen Peroxide has a high acidity rate, leading to the acidified circulation. Aqueous Iodide much relates to Iodine, which evolves back into the theory. No way could any amiablalitonized substance be heated or cooled, or equafied. We will leave it at that. Sincerly, Dr. Newton Richard Goodman PhD Chemical Substances, Organic Chemistry, Biolody Nutrientials, Physics, and Triginometrical Chemistry.
They can't. There must be an electrolyte mixed in. For example distilled water doesn't conduct electricity and it is a polar covalent compound. However, when you mix in salt, it does conduct electricity.
Well it fully depends on what type of copper you have. if you have Cu1+ then when you do an ionic equation and switch the ion charges, then the compound you would get would be Cu2O. If you had Cu2+ then the compound would end up being CuO. You cant just put two things together and assume its right. You have to do an ionic equation and then balance your reaction.
Ionic compounds conduct electricity in aqueous solution or molten state. In aq. soln. or molten state, ionic compounds dissociate to release respective ions. These ions, being electrically charged, conduct electricity.
It depends on the equation that is being solved.
No, the arrow indicates which way the reaction proceeds, often with 2 arrows being used pointing in both directions indicating the reaction is in equilibrium. The compound's mass can be calculated using the molecular mass of the compound from the periodic table.
The reactants or what is being changed in the chemical equation.