What is the ionic equation of copper sulfate?
Copper sulfate commonly refers to copper (II) sulfate or cupric sulfate. This chemical compound is made up of two ions- a copper (II) ion and sulfate ion. Copper (II) ion or cupric ion is denoted by Cu2+ and sulfate ion has an ionic formula of SO4^2-. The overall ionic formula of copper (II) sulfate is CuSO4.
What information does a net ionic equation give that the complete ionic equation does not show?
A net ionic equation shows only the chemical species that are involved in a reaction, while a complete ionic equation also includes the spectator ions.
Which is the cation in CuSO4?
The CuSO4 molecule consists of an ionic bond between the copper cation (Cu2+) and the sulfate anion (SO42-).
Does CuSO4 and Na2CO3 form a precipitate?
When copper sulfate reacts with sodium carbonate, it forms the precipitate basic copper carbonate. This is a compound that contains 2 positively charged copper ions, 2 hydroxide ions, and a carbonate ion. You should observe a thick precipitate forming.
What does a net ionic equation show about a reaction?
The net ionic equation is the chemical equation that shows only those elements, compounds, and ions that are directly involved in the chemical reaction. Balancing by charge means making sure that the overall charge is the same on both sides of the equation.
What is the reaction of CuSO4?
When H2O is added to CuSO4, a simple reaction occurs resulting in the formation of copper sulfate pentahydrate (CuSO4.5H2O), which is also known as blue vitriol. Again Copper sulfate on dehydration loose the water molecule and forms copper sulfate monohydrate which is bluish white in color.
What type of compound is Koh?
KOH or potassium hydroxide is an inorganic compound. There are two types of KOH as alcoholic KOH and aqueous KOH, depending on the composition. In summary, the key difference between alcoholic KOH and aqueous KOH is that alcoholic KOH forms C 2 H 5 O – ions and aqueous KOH forms OH – ions upon dissociation.
What type of reaction is cu HNO3?
Cu reacts with hno3 because of oxidation redox reaction in which hydrogen is added or reduced from the reaction and in this reaction hydrogen is released.