Absolute ValueMeaning, How to Calculate Absolute Value, Examples

Many comprehend absolute value as the length from zero to a number line. And that's not incorrect, but it's by no means the entire story.

In mathematics, an absolute value is the magnitude of a real number without regard to its sign. So the absolute value is at all time a positive number or zero (0). Let's observe at what absolute value is, how to calculate absolute value, few examples of absolute value, and the absolute value derivative.

Definition of Absolute Value?

An absolute value of a number is constantly positive or zero (0). It is the magnitude of a real number irrespective to its sign. That means if you have a negative number, the absolute value of that number is the number disregarding the negative sign.

Definition of Absolute Value

The prior explanation states that the absolute value is the distance of a number from zero on a number line. So, if you think about that, the absolute value is the length or distance a number has from zero. You can visualize it if you take a look at a real number line:

As shown, the absolute value of a figure is the distance of the figure is from zero on the number line. The absolute value of negative five is five due to the fact it is 5 units away from zero on the number line.

Examples

If we plot negative three on a line, we can see that it is 3 units apart from zero:

The absolute value of negative three is 3.

Now, let's check out another absolute value example. Let's assume we hold an absolute value of 6. We can graph this on a number line as well:

The absolute value of 6 is 6. Hence, what does this tell us? It states that absolute value is at all times positive, even if the number itself is negative.

How to Find the Absolute Value of a Number or Expression

You need to know few points prior going into how to do it. A handful of closely linked properties will help you understand how the number within the absolute value symbol functions. Thankfully, what we have here is an meaning of the ensuing 4 fundamental properties of absolute value.

Essential Properties of Absolute Values

Non-negativity: The absolute value of any real number is constantly positive or zero (0).

Identity: The absolute value of a positive number is the expression itself. Alternatively, the absolute value of a negative number is the non-negative value of that same expression.

Addition: The absolute value of a total is lower than or equivalent to the sum of absolute values.

Multiplication: The absolute value of a product is equivalent to the product of absolute values.

With above-mentioned four fundamental properties in mind, let's look at two more useful properties of the absolute value:

Positive definiteness: The absolute value of any real number is always zero (0) or positive.

Triangle inequality: The absolute value of the variance between two real numbers is less than or equivalent to the absolute value of the sum of their absolute values.

Now that we went through these characteristics, we can in the end start learning how to do it!

Steps to Discover the Absolute Value of a Expression

You are required to obey a couple of steps to calculate the absolute value. These steps are:

Step 1: Note down the expression whose absolute value you want to find.

Step 2: If the expression is negative, multiply it by -1. This will make the number positive.

Step3: If the expression is positive, do not alter it.

Step 4: Apply all properties significant to the absolute value equations.

Step 5: The absolute value of the figure is the expression you get after steps 2, 3 or 4.

Bear in mind that the absolute value symbol is two vertical bars on both side of a number or expression, similar to this: |x|.

Example 1

To start out, let's assume an absolute value equation, such as |x + 5| = 20. As we can observe, there are two real numbers and a variable inside. To solve this, we need to locate the absolute value of the two numbers in the inequality. We can do this by following the steps mentioned above:

Step 1: We are given the equation |x+5| = 20, and we have to calculate the absolute value inside the equation to find x.

Step 2: By using the essential characteristics, we understand that the absolute value of the addition of these two figures is as same as the sum of each absolute value: |x|+|5| = 20

Step 3: The absolute value of 5 is 5, and the x is unidentified, so let's get rid of the vertical bars: x+5 = 20

Step 4: Let's calculate for x: x = 20-5, x = 15

As we see, x equals 15, so its distance from zero will also be as same as 15, and the equation above is genuine.

Example 2

Now let's try one more absolute value example. We'll utilize the absolute value function to get a new equation, like |x*3| = 6. To get there, we again need to observe the steps:

Step 1: We have the equation |x*3| = 6.

Step 2: We are required to find the value of x, so we'll begin by dividing 3 from both side of the equation. This step offers us |x| = 2.

Step 3: |x| = 2 has two possible results: x = 2 and x = -2.

Step 4: So, the original equation |x*3| = 6 also has two potential results, x=2 and x=-2.

Absolute value can include several intricate numbers or rational numbers in mathematical settings; still, that is something we will work on separately to this.

The Derivative of Absolute Value Functions

The absolute value is a continuous function, this refers it is varied everywhere. The ensuing formula gives the derivative of the absolute value function:

f'(x)=|x|/x

For absolute value functions, the domain is all real numbers except zero (0), and the range is all positive real numbers. The absolute value function increases for all x<0 and all x>0. The absolute value function is consistent at 0, so the derivative of the absolute value at 0 is 0.

The absolute value function is not distinctable at 0 because the left-hand limit and the right-hand limit are not uniform. The left-hand limit is given by:

I'm →0−(|x|/x)

The right-hand limit is given by:

I'm →0+(|x|/x)

Because the left-hand limit is negative and the right-hand limit is positive, the absolute value function is not distinguishable at zero (0).

Grade Potential Can Guide You with Absolute Value

If the absolute value seems like a lot to take in, or if you're struggling with math, Grade Potential can guide you. We offer face-to-face tutoring by professional and authorized teachers. They can guide you with absolute value, derivatives, and any other theories that are confusing you.

Call us today to learn more about how we can help you succeed.