All GRE Subject Test: Chemistry Resources
Example Questions
Example Question #3 : Introduction For Reactions
What is the net ionic equation for the ion exchange reaction between ferrous sulfate and calcium iodide? Assume all compounds are soluble.
None of the available answers
First, we must know what ferrous sulfate is. Ferrous refers to , and sulfate has the formula . When we combine the two together we get .
Calcium is a divatent cation and iodide is a monovalent anion, so their salt is . The ion exchange reaction is then:
Example Question #3 : Balancing Chemical Equations
Select the net ionic equation from this molecular reaction:
None of the other choices
The net ionic equation is derived by removing all spectator ions from the total ionic equation (in which all ions are listed). To put it another way, the net ionic equation involves only the ions that participate in a reaction which, in this case, is the precipitation of barium sulfate.
Begin by writing all aqueous compounds in their dissociated (ionic) forms.
Cancel out any ions that appear in equal quantities on both sides of the equation. In this case, we can cancel the nitrate and potassium ions.
This is our net ionic equation.
Example Question #4 : Balancing Chemical Equations
What is the balanced chemical equation for the combustion of butane ?
Combustion is the chemical reaction of a hydrocarbon with molecular oxygen, and it always produces carbon dioxide and water. Knowing the reactants and products, the unbalanced equation must be:
We start by balancing the hydrogens. Since there are 10 on the left and only 2 on the right, we put a coefficient of 5 on water.
Similarly, we balance carbons by putting a 4 on the carbon dioxide.
To find the number of oxygens on the right, we multiply the 4 coefficient by the 2 subscript on O (which gets us 8 oxygens) and then add the 5 oxygens from the 5 water molecules to get a total of 13. The needed coefficient for on the left would then have to be 13/2.
Because fractional coefficients are not allowed, we mutiply every coefficient by 2 to find our final reaction:
Example Question #5 : Balancing Chemical Equations
Determine whether or not solid aluminum reacts with aqueous zinc chloride. If it does, determine the balanced equation for the reaction.
No reaction occurs
When we check the activity series, it is fairly easy to see that aluminum metal is more reactive than zinc metal. So, in this case, the two metals undergo a redox reaction, where the aqueous is reduced to solid , and the solid is oxidized to aqueous . These charges are the common oxidation states for zinc and aluminum and should be memorized.
Because is the new species, it bonds with 3 ions. The unbalanced equation is:
We note that there are 2 chlorine atoms on the left and 3 chlorine atoms on the right. To balance, we use a 3 coefficient on the left and a 2 coefficient on the right. This gives a total of 6 chlorine atoms on eahc side.
However, now we have also increased the amounts of zinc and aluminum. We copy the necessary coefficients to balance those—2 for aluminum on the left, 3 for zinc on the right—and we are done:
Example Question #1 : Reaction Chemistry
What will be the coefficient for once the following equation is balanced?
In the unbalanced equation from the question, the reactant side contains two hydrogen atoms and one oxygen atom. On the product side of the equation, there are four hydrogens and two oxygen atoms. So for every oxygen atom there are two hydrogen atoms giving a ratio of (oxygen : hydrogen). Putting a coefficient of two in front of the water molecule on the reactant side of the equation balances the equation. Therefore, there are four hydrogen and two oxygen atoms on both sides of the balanced chemical equation.
Example Question #1 : Reaction Chemistry
When 15.5 grams of is used in the given reaction, how many moles of is produced?
We must first calculate the molecular weight of to use as a conversion factor:
For every mole of reacted, one mole of is produced.
Therefore, 0.1092 moles of is produced.
Example Question #2 : Reaction Chemistry
When 20.0 grams of is used in the given reaction, how many moles of is produced?
We must first calculate the molecular weight of to use as a conversion factor:
For every 1 mole of reacted, 2 moles of is produced.
Therefore,the number of moles of produced will be double the number of moles of used up in the reaction:
Example Question #1 : Chemical Equations
What is the smallest whole-number coefficient that can be designated to the water molecule that would balance the chemical equation given?
The number of atoms on the reactant side of the chemical equation are:
The number of atoms on the product side of the chemical equation are:
In a balanced chemical equation, the total number of atoms of each element must be equal on the reactant and product side of the chemical equation. There is one more oxygen and two more hydrogen atoms on the reactant side of the chemical equation. Giving the water molecule on the product side of the chemical equation would balance the chemical equation so that both sides contain six oxygens and five hydrogens:
Example Question #3 : Reaction Chemistry
What is the smallest whole number coefficient that can be designated to the molecule that would balance the chemical equation given?
The process of balancing a chemical equation is called "balancing by inspection" which is done by trial and error. The easiest way to approach the problem given is by balancing the species containing an element with the most complicated formula occurring in one reactant and one product. In this case, we can either begin by balancing the carbon or hydrogen in the propane molecule. Let's start with the carbon by adding a coefficient of 3 to the carbon dioxide molecule on the product side of the equation which gives:
Let's now balance the hydrogens by adding a coefficient of 4 to the product side of the equation:
Lastly, we can balance the number of oxygens in the reaction:
Example Question #10 : Chemical Equations
If of is used for the reaction given, how many grams of was formed?
Based on the molecular equation, for every 1 mole of reacted, 1 mole of is formed as a product. Using dimensional analysis, we can use this relationship to determine the moles of reacted:
We must calculate the molecular weight of :
To calculate the number of grams of , we need to convert the number of moles of to grams using the molecular weight as a conversion factor.
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