All GMAT Math Resources
Example Questions
Example Question #1 : Absolute Value
Solve .
or
or
or
or
really consists of two equations:
We must solve them both to find two possible solutions.
So or .
Example Question #2 : Absolute Value
Solve .
It's actually easier to solve for the complement first. Let's solve . That gives -3 < 2x - 5 < 3. Add 5 to get 2 < 2x < 8, and divide by 2 to get 1 < x < 4. To find the real solution then, we take the opposites of the two inequality signs. Then our answer becomes .
Example Question #3 : Absolute Value
Give the -intercept(s), if any, of the graph of the function in terms of .
Set and solve for :
Rewrite as a compound equation and solve each part separately:
Example Question #4 : Absolute Value
A number is ten less than its own absolute value. What is this number?
No such number exists.
We can rewrite this as an equation, where is the number in question:
A nonnegative number is equal to its own absolute value, so if this number exists, it must be negative.
In thsi case, , and we can rewrite that equation as
This is the only number that fits the criterion.
Example Question #5 : Absolute Value
If , which of the following has the greatest absolute value?
Since , we know the following:
;
;
;
;
.
Also, we need to compare absolute values, so the greatest one must be either or .
We also know that when .
Thus, we know for sure that .
Example Question #6 : Absolute Value
Give all numbers that are twenty less than twice their own absolute value.
No such number exists.
We can rewrite this as an equation, where is the number in question:
If is nonnegative, then , and we can rewrite this as
Solve:
If is negative, then , and we can rewrite this as
The numbers have the given characteristics.
Example Question #3 : Absolute Value
Solve for in the absolute value equation
None of the other answers
None of the other answers
The correct answer is that there is no .
We start by adding to both sides giving
Then multiply both sides by .
Then divide both sides by
Now it is impossible to go any further. The absolute value of any quantity is always positive (or sometimes ). Here we have the absolute value of something equaling a negative number. That's never possible, hence there is no that makes this a true equation.
Example Question #4 : Absolute Value
Solve the following equation:
We start by isolating the expression with the absolute value:
becomes
So: or
We then solve the two equations above, which gives us 42 and 4 respectively.
So the solution is
Example Question #5 : Understanding Absolute Value
Solve the absolute value equation for .
None of the other answers.
The equation has no solution
We proceed as follows
(Start)
(Subtract 3 from both sides)
or (Quantity inside the absolute value can be positive or negative)
or (add five to both sides)
or
Another way to say this is
Example Question #7 : Absolute Value
Which of the following could be a value of ?
To solve an inequality we need to remember what the absolute value sign says about our expression. In this case it says that
can be written as
Of .
Rewriting this in one inequality we get:
From here we add one half to both sides .
Finally, we divide by two to isolate and solve for m.
Only is between -1.75 and 2.25