How to find the solution to an inequality with addition - ACT Math
Card 0 of 16
What values of x make the following statement true?
|x – 3| < 9
What values of x make the following statement true?
|x – 3| < 9
Solve the inequality by adding 3 to both sides to get x < 12. Since it is absolute value, x – 3 > –9 must also be solved by adding 3 to both sides so: x > –6 so combined.
Solve the inequality by adding 3 to both sides to get x < 12. Since it is absolute value, x – 3 > –9 must also be solved by adding 3 to both sides so: x > –6 so combined.
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Solve |x – 5| ≤ 1
Solve |x – 5| ≤ 1
Absolute values have two answers: a positive one and a negative one. Therefore,
-1 ≤ x – 5≤ 1 and solve by adding 5 to all sides to get 4 ≤ x ≤ 6.
Absolute values have two answers: a positive one and a negative one. Therefore,
-1 ≤ x – 5≤ 1 and solve by adding 5 to all sides to get 4 ≤ x ≤ 6.
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Solve for 
.
Solve for
Absolute value problems always have two sides: one positive and one negative.
First, take the problem as is and drop the absolute value signs for the positive side: z – 3 ≥ 5. When the original inequality is multiplied by –1 we get z – 3 ≤ –5.
Solve each inequality separately to get z ≤ –2 or z ≥ 8 (the inequality sign flips when multiplying or dividing by a negative number).
We can verify the solution by substituting in 0 for z to see if we get a true or false statement. Since –3 ≥ 5 is always false we know we want the two outside inequalities, rather than their intersection.
Absolute value problems always have two sides: one positive and one negative.
First, take the problem as is and drop the absolute value signs for the positive side: z – 3 ≥ 5. When the original inequality is multiplied by –1 we get z – 3 ≤ –5.
Solve each inequality separately to get z ≤ –2 or z ≥ 8 (the inequality sign flips when multiplying or dividing by a negative number).
We can verify the solution by substituting in 0 for z to see if we get a true or false statement. Since –3 ≥ 5 is always false we know we want the two outside inequalities, rather than their intersection.
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If –1 < w < 1, all of the following must also be greater than –1 and less than 1 EXCEPT for which choice?
If –1 < w < 1, all of the following must also be greater than –1 and less than 1 EXCEPT for which choice?
3_w_/2 will become greater than 1 as soon as w is greater than two thirds. It will likewise become less than –1 as soon as w is less than negative two thirds. All the other options always return values between –1 and 1.
3_w_/2 will become greater than 1 as soon as w is greater than two thirds. It will likewise become less than –1 as soon as w is less than negative two thirds. All the other options always return values between –1 and 1.
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If 
and 
, then which of the following could be the value of 
?
If
To solve this problem, add the two equations together:
The only answer choice that satisfies this equation is 0, because 0 is less than 4.
To solve this problem, add the two equations together:
The only answer choice that satisfies this equation is 0, because 0 is less than 4.
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Solve 
Solve
Absolute value is the distance from the origin and is always positive.
So we need to solve 
and 
which becomes a bounded solution.
Adding 3 to both sides of the inequality gives 
and 
or in simplified form 
Absolute value is the distance from the origin and is always positive.
So we need to solve
Adding 3 to both sides of the inequality gives
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What values of 
make the statement 
true?
What values of
First, solve the inequality 
:
Since we are dealing with absolute value, 
must also be true; therefore:
First, solve the inequality
Since we are dealing with absolute value,
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Given the inequality 
which of the following is correct?
Given the inequality
First separate the inequality 
into two equations.
Solve the first inequality.
Solve the second inequality.
Thus, 
or 
.
First separate the inequality
Solve the first inequality.
Solve the second inequality.
Thus,
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Simplify
.
Simplify
Simplifying an inequality like this is very simple. You merely need to treat it like an equation—just don't forget to keep the inequality sign.
First, subtract 
from both sides:
Then, divide by 
:
Simplifying an inequality like this is very simple. You merely need to treat it like an equation—just don't forget to keep the inequality sign.
First, subtract
Then, divide by
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Simplify the following inequality
.
Simplify the following inequality
For a combined inequality like this, you just need to be careful to perform your operations on all the parts of the inequality. Thus, begin by subtracting 
from each member:
Next, divide all of the members by 
:
For a combined inequality like this, you just need to be careful to perform your operations on all the parts of the inequality. Thus, begin by subtracting
Next, divide all of the members by
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The inequality 
is equivalent to which of the following inequalities?
The inequality
In order to simplify an inequality, we must bring the unknown (
) values on one side and the integers on the other side of the inequality:
In order to simplify an inequality, we must bring the unknown (
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. Solve for 
We must put all of the like terms together on either side of the inequality symbol. First, we need to subtract the 
to the right side and add 
to the left side to get all of the terms with 
to the right side of the inequality and all of the integers to the left side.
We solve for 
by dividing by 
.
That leaves us with 
, which is the same as 
. Remember, you only flip the direction of the inequality if you divide by a negative number!
We must put all of the like terms together on either side of the inequality symbol. First, we need to subtract the
We solve for
That leaves us with
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Solve the following inequality:
Solve the following inequality:
To solve an equality that has addition, simply treat it as an equation. Remember, the only time you have to do something to the inquality is when you are multiplying or dividing by a negative number.
Subrtract 4 from each side. Thus,
To solve an equality that has addition, simply treat it as an equation. Remember, the only time you have to do something to the inquality is when you are multiplying or dividing by a negative number.
Subrtract 4 from each side. Thus,
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Solve the following inequality:
Solve the following inequality:
To solve, simply treat it as an equation. This means you want to isolate the variable on one side and move all other constants to the other side through opposite operation manipulation.
Remember, you only flip the inequality sign if you multiply or divide by a negative number.
Thus,
To solve, simply treat it as an equation. This means you want to isolate the variable on one side and move all other constants to the other side through opposite operation manipulation.
Remember, you only flip the inequality sign if you multiply or divide by a negative number.
Thus,
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Solve:
Solve:
First, we want to group all of our like terms. I will move all of my integers to the left side of the inequality.
Since we are not dividing by a negative sign, we do not have to flip the inequality.
First, we want to group all of our like terms. I will move all of my integers to the left side of the inequality.
Since we are not dividing by a negative sign, we do not have to flip the inequality.
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Solve:
Solve:
The first thing that we have to do is deal with the absolute value. We simply remove the absolute value by equating the left side with the positive and negative solution (of the right side). When we include the negative solution, we must flip the direction of the inequality. Shown explicitly:
Now, we simply solve the inequality by moving all of the integers to the right side, and we are left with: 
This reduces down to 
The first thing that we have to do is deal with the absolute value. We simply remove the absolute value by equating the left side with the positive and negative solution (of the right side). When we include the negative solution, we must flip the direction of the inequality. Shown explicitly:
Now, we simply solve the inequality by moving all of the integers to the right side, and we are left with:
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