All Algebra II Resources
Example Questions
Example Question #71 : Simplifying Radicals
Simplify:
Since each term in the expression has the same radical, the terms can be combined together by adding and subtracting their coefficients.
Thus to simplify this expression, combine the coefficients as follows.
Therefore, .
Thus, your answer is .
Example Question #1411 : Mathematical Relationships And Basic Graphs
Simplify: .
Step 1: Simplify the roots 1 by 1:
Step 2: Re-write the equation based on the simplified radicals.
Step 3: Add like terms:
. This is the final answer.
Example Question #1412 : Mathematical Relationships And Basic Graphs
Solve .
This cannot be simplified further.
In order to add terms with radials, the radicands must be the same. In this case, both terms must contain .
The Power of a Product property of exponents states that . Since the taking the square root of a number is the same as raising it to the 1/2 power, then:
OR
In this problem:
The problem then becomes:
Example Question #35 : Adding And Subtracting Radicals
Adding and subtracting radicals cannot be done without having the same number under the same type of radical. These numbers first need to be simplified so that they have the same number under the radical before adding the coefficients. Look for perfect squares that divide into the number under the radical because those can be simplified.
Now take the square root of the perfect squares. Note that when the numbers come out of the square root they multiply with any coefficients outside that radical.
Since all the terms have the same radical, now their coefficients can be added
Example Question #1413 : Mathematical Relationships And Basic Graphs
To add or subtract radicals, they must be the same root and have the same number under the radical before combining them. Look for perfect squares that divide into the number under the radicals because those can be simplified. However, in this problem all the numbers under the radicals are already perfect squares and can be simplified directly.
Example Question #37 : Adding And Subtracting Radicals
To add or subtract radicals, they must be the same root and have the same number under the radical before combining them. Look for perfect squares that divide into the number under the radicals because those can be simplified.
Take the square roots of each of the perfect squares in these radicals and bring it out of the radical. It will multiply to any coefficient in front of that radical
Finally, combine the coefficients of the same radicals
Example Question #38 : Adding And Subtracting Radicals
To add or subtract radicals, they must be the same root and have the same number under the radical before combining them. Look for perfect squares that divide into the number under the radicals because those can be simplified. In this problem, only the 12 divides by a perfect square
Take the square roots of each of the perfect squares in these radicals and bring it out of the radical. It will multiply to any coefficient in front of that radical
This is as far as the problem can be simplified.
Example Question #4072 : Algebra Ii
To add or subtract radicals, they must be the same root and have the same number under the radical before combining them. Look for perfect squares that divide into the number under the radicals because those can be simplified. In this problem, 100 and 4 are already perfect squares and can be directly square rooted.
Take the square roots of each of the perfect squares in these radicals and bring it out of the radical. It will multiply to any coefficient in front of that radical
Example Question #40 : Adding And Subtracting Radicals
To add or subtract radicals, they must be the same root and have the same number under the radical before combining them. Look for perfect squares that divide into the number under the radicals because those can be simplified.
Take the square roots of each of the perfect squares in these radicals and bring it out of the radical. It will multiply to any coefficient in front of that radical
Example Question #41 : Adding And Subtracting Radicals
To add or subtract radicals, they must be the same root and have the same number under the radical before combining them. Look for perfect squares that divide into the number under the radicals because those can be simplified.
Take the square roots of each of the perfect squares in these radicals and bring it out of the radical. It will multiply to any coefficient in front of that radical