Consider the following system composed of five 1 M aqueous solutions; iron (II) chloride, sodium sulfite, sulfuric acid, silver nitrate, and sodium hydroxide.
Yoou will mix the solutions in a pair wise fashion so that all possible reactions between the solutions are tested. Use the solubility rules to predict when the precipitation reaction will occur. For each combination that produces a precipitation reaction write a balanced molecular equation and a net ionic equation. Indicate all phases in your equations.
The combination of sodium sulfite and sulfuric acid does not produce a precipitate but does produce a foul smelling gas, sulfur dioxide, and molecular water. Write a balanced molecular equation and a net ionic equation for the reaction. Indicate all phases in your equations.
One combination of chemical above does not produce a precipitate or a gas but you notice the test tube warms up significantly upon mixing. This is due to the high heat of neutralization. Identify the pair that produces a neutralization reaction and write a balanced molecular equation and a net ionic equation. Indicate all phases in your equations.
Consider the following system composed of five 1 M aqueous solutions; iron (II) chloride, sodium sulfite, sulfuric acid, silver nitrate, and sodium hydroxide.
Yoou will mix the solutions in a pair wise fashion so that all possible reactions between the solutions are tested. Use the solubility rules to predict when the precipitation reaction will occur. For each combination that produces a precipitation reaction write a balanced molecular equation and a net ionic equation. Indicate all phases in your equations.
The combination of sodium sulfite and sulfuric acid does not produce a precipitate but does produce a foul smelling gas, sulfur dioxide, and molecular water. Write a balanced molecular equation and a net ionic equation for the reaction. Indicate all phases in your equations.
One combination of chemical above does not produce a precipitate or a gas but you notice the test tube warms up significantly upon mixing. This is due to the high heat of neutralization. Identify the pair that produces a neutralization reaction and write a balanced molecular equation and a net ionic equation. Indicate all phases in your equations.