Algebraic Operations - Radicals, 5

Category: Algebra

"Published in Newark, California, USA"

Perform the indicated operations

Solution:

Consider the given equation above

The first thing that we have to do is to examine the radicals first if they can simplify or not. As a rule in Mathematics, all radicals must be simplified as much as we can.

At the first term, 16 is not a perfect cube. The factors of 16 are 8 and 2. 8 is a perfect cube.

At the second term, the denominator contains a radical. We need to eliminate the radical sign at the denominator by rationalization of the denominator. Multiply both the numerator and denominator by x² so that the denominator becomes a perfect cube which is x³. 

At the third term, the denominator contains a radical also. We need to eliminate the radical sign at the denominator by rationalization of the denominator. Multiply both the numerator and denominator by 2 so that the denominator becomes a perfect cube which is 8. 

Hence, the given equation above becomes

Take the cube root of the numbers inside the radicals that are perfect cube, we have 

Since all the terms inside the radicals are the same, then we can combine them and therefore, the final answer is 

  

Algebraic Operations - Radicals, 4

Category: Algebra

"Published in Newark, California, USA"

Perform the indicated operations

Solution:

Consider the given equation above

The first thing that we have to do is to examine the radicals first if they can simplify or not. As a rule in Mathematics, all radicals must be simplified as much as we can.

At the first term, 45 is not a perfect square. The factors of 45 are 9 and 5. 9 is a perfect square. x³ is not a perfect square. We can factor x³ into x² and x.

At the second term, 80 is not a perfect square. The factors of 80 are 16 and 5. 16 is a perfect square. 

At the third term, 180 is not a perfect square. The factors of 180 are 36 and 5. 36 is a perfect square. x³ is not a perfect square. We can factor x³ into x² and x. 

Hence, the given equation above becomes

Take the square root of the numbers inside the radicals that are perfect square, we have 

Since all the terms inside the radicals are the same, then we can combine them and therefore, the final answer is 

 

Algebraic Operations - Radicals, 3

Category: Algebra, Arithmetic

"Published in Newark, California, USA"

Perform the indicated operations

Solution:

Consider the given equation above

The first that we have to do is to examine the radicals first if they can simplify or not. As a rule in Mathematics, all radicals must be simplified as much as we can. Although the given radical equations are all numbers, then still, we have to follow the principles of Algebra which is "like combines like". 

At the first term, 54 is not a perfect cube. The factors of 54 are 27 and 2. 27 is a perfect cube.

At the second term, 250 is not a perfect cube. The factors of 250 are 125 and 2. 125 is a perfect cube.

At the third term, we need to eliminate the radical sign at the denominator by rationalization of the denominator. Multiply both the numerator and the denominator by 2 so that the denominator becomes a perfect cube which is 8.

Hence, the given equation above becomes

Take the cube root of the numbers inside the radicals that are perfect cube, we have

Since all the terms inside the radicals are the same, then we can combine them and therefore, the final answer is