How to Solve Quadratic Equations by Completing the Square Formula

What is the Completing the Square Formula and how can you use it to solve problems?

Welcome to this free lesson guide that accompanies this Completing the Square Explained! video tutorial, where you will learn the answers to the following key questions and information:

• What is the completing the square formula?

• How can I solve by completing the square?

• How can I master solving quadratic equations by completing the square?

• What are the completing the square steps?

This Complete Guide to the Completing the Square includes several examples, a step-by-step tutorial, an animated video mini-lesson, and a free worksheet and answer key.

*This lesson guide accompanies our animated Completing the Square Explained! YouTube.

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When can you use the completing the square method to solve quadratic equations?

Solving by completing the square is used to solve quadratic equations in the following form:

Note that a quadratic can be rearranged by subtracting the constant, c, from both sides as follows:

These are two different ways of expressing a quadratic.

Keep this in mind while solving the following problems:

Completing the Square Formula

The following method is less of a formula and more like completing the square steps:

Example: Solve the following quadratic by completing the square.

Notice that a=1, and b=-6, but what about the constant, c?

Completing the Square Step 1 of 3: Rearrange if Possible

To complete the square, you need to have all of the constants (numbers that are not attached to variables) on the right side of the equals sign.

In this example, you can achieve this by subtracting 9 from both sides and simplifying as follows:

Now that you have rearranged the quadratic so that all of the constants are on the right side of the equals sign, you are ready for step 2!

Completing the Square Step 2 of 3: +(b/2)^2 to both sides

The second step to solving by completing the square is to add (b/2)^2 to both sides of the equation.

Remember the alternate way to write a quadratic from Figure 1 earlier on? Let’s look at it again with our current equation directly below it for reference.

Step two requires that you add (b/2)^2 to both sides and it should be clear that, in this example, b equals -6.

So to find the value of (b/2)^2, just plug in -6 for b and solve as follows:

Since (b/2)^2 equals 9, go ahead and add 9 to both sides of the equals sign as follows:

Notice that you can simplify the right side of the equal sign by adding 16 and 9 to get 25.

Now you are ready for the final step!

Completing the Square Step 3 of 3: Factor and Solve

Notice that, on the left side of the equation, you have a trinomial that is easy to factor.

The factors of the trinomial on the left side of the equals sign are (x-3)(x-3) or (x-3)^2

Expressing the factors are (x-3)^2 instead of (x-3)(x-3) is very important because it allows you to solve the problem as follows:

After taking the square root of both sides, you are left with x-3 = +/- 5.

Next, to get x by itself, add 3 to both sides as follows.

And to find your solutions, simply perform x = 3 + 5 AND x = 3 - 5 to get your answer as follows:

Answer: x= 8 and x = -2

This method will apply to solving any quadratic equation! Let’s quickly review the completing the square formula method steps below and then take a look at a few more examples.

Solving by Completing the Square Steps Method Review:

Solve by Completing the Square Problems

Example 1:

Solve for x by completing the square.

STEP 1/3: REARRANGE IF NECESSARY

Start by moving all of the constants to the right side of the equals sign as follows:

STEP 2/3: +(b/2)^2 to both sides

In this example, b=2, so (b/2)^2 = (2/2)^2 = (1)^2 = 1

So, the next step is to add 1 to both sides as follows:

STEP 3/3: Factor and Solve

For the final step, factor the trinomial on the left side of the equals sign and solve for x as follows:

Answer: x=1.83 and x=-3.83

Solve by Completing the Square Examples

Example 2:

Solve for x by completing the square.

On this final example, follow the complete the square formula 3-step method for finding the solutions* as follows:

*Note that this problem will have imaginary solutions.

You can get a more detailed step-by-step explanation of how to solve the above example by watching the video tutorial below starting from minute 7:36.

Completing the Square Explained: Video Tutorial

Still confused? Check out the animated video lesson below:

Check out the video lesson below to learn more about the completing the square and to see more completing the square problems solved step-by-step:

Extra Practice: Free Completing the Square Worksheet

Are you looking for some extra practice? Click the links below to download your free worksheets and answer key:

Completing the Square Practice Worksheet:

CLICK HERE TO DOWNLOAD YOUR FREE WORKSHEET

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By Anthony Persico

Anthony is the content crafter and head educator for YouTube's MashUp Math. You can often find me happily developing animated math lessons to share on my YouTube channel . Or spending way too much time at the gym or playing on my phone.

Here is Everything You Need to Know About Finding the Volume of a Sphere

How can you use the volume of a sphere formula to solve problems?

Welcome to this free lesson guide that accompanies this Volume of a Sphere video tutorial, where you will learn the answers to the following key questions and information:

• How do you find volume of a sphere?

• How do you use the volume of a sphere formula?

• What is the radius of a sphere?

• What is the circumference of a sphere?

This Complete Guide to Finding Volume of a Sphere includes several examples, a step-by-step tutorial, an animated video mini-lesson, and a free worksheet and answer key.

*This lesson guide accompanies our animated Volume of a Sphere Tutorial on YouTube.

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Volume of a Sphere: Properties

Before you learn about finding the volume of a sphere and how to use the volume of a sphere formula, you must be familiar with the following properties of a sphere:

• A sphere is a three-dimensional circle (like a ball)

• The radius of a sphere is any line that extends from the center to the edge.

• The radius, r, is equal to half of the diameter.

Volume of a Sphere Formula and Definition

Next, you need to understand what the volume of a sphere is.

The Volume of a Sphere is how much room is INSIDE of a sphere.

The Volume of a Sphere Formula:

Not that, unlike area or surface area, volume is measured in cubic units.

Now you are ready to solve some problems involving volume of a sphere!

Using The Volume of a Sphere Formula Examples

EXAMPLE: How many cubic centimeters of air would be needed to completely fill a soccer ball with a diameter of 22cm?

Let’s start by identifying the key information as follows:

Since you are concerned with filling the amount of space inside of the soccer ball, you know that this problem can be solved using the volume of a sphere formula.

And you also know that the ball has a diameter of 22cm…

Since you know the length of the diameter and that the radius is equal to half of the diameter, you can conclude that the radius of the soccer ball equals 11cm, because (22/2)=11…

Now you are ready to use the formula to solve the problem as follows:

Finally, you can conclude that:

ANSWER: The volume of the sphere is approximately 5,575.3 cubic centimeters!

Using The Volume of a Sphere Formula Explained: Video Tutorial

Still confused? Check out the animated video lesson below:

Check out the video lesson below to learn more about how to use the volume of a sphere formula:

Free Volume of a Sphere Worksheet

Are you looking for some extra practice? Click the links below to download your free worksheets and answer key:

Volume of a Sphere Practice Worksheet:

CLICK HERE TO DOWNLOAD YOUR FREE WORKSHEET

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By Anthony Persico

Anthony is the content crafter and head educator for YouTube's MashUp Math. You can often find me happily developing animated math lessons to share on my YouTube channel . Or spending way too much time at the gym or playing on my phone.

Here is Everything You Need to Know About the Commutative Property

What is the commutative property in math and what does it look like?

Welcome to this free lesson guide that accompanies this Commutative Property Explained! video lesson, where you will learn the answers to the following key questions and information:

• What is the commutative property of addition?

• What is the commutative property of multiplication?

• Commutative Property Examples

• Commutative Property Proof

This Complete Guide to the Commutative Property includes several examples, a step-by-step tutorial, an animated video mini-lesson, and a free worksheet and answer key.

*This lesson guide accompanies our animated Commutative Property Tutorial on YouTube.

Want more free math lesson guides and videos? Subscribe to our channel for free!

What is the Commutative Property of Addition?

The Commutative Property of Addition states that for any real numbers a and b:

If you replace the a and b terms with real numbers, like a = 2 and b =8 as shown below:

You can see from this example that, even though the terms are in reverse order on each side of the equal sign, that each side is equal to 10.

This is an example of why the commutative property holds under addition!

Does the Commutative Property work with subtraction?

Now that you understand the commutative property of addition, what about subtraction?

For example, if you replace the a and b terms with real numbers, like a = 2 and b =8 as shown below:

You can see from this example that, even though the terms are in reverse order on each side of the equal sign, that each side is NOT equal ( -6 does not equal 6)

This is an example of why the commutative property does NOT hold under addition!

Summary: Addition is commutative, but Subtraction is not!

What is the Commutative Property of Addition?

The Commutative Property of Multiplication states that for any real numbers a and b:

For example, if you replace the a and b terms with real numbers, like a = 4 and b =8 as shown below:

You can see from this example that, even though the terms are in reverse order on each side of the equal sign, that each side is equal to 32.

This is an example of why the commutative property holds under multiplication!

Does the Commutative Property work with division?

Now that you understand the commutative property of multiplication, what about division?

For example, if you replace the a and b terms with real numbers, like a = 4 and b =8 as shown below:

You can see from this example that, even though the terms are in reverse order on each side of the equal sign, that each side is NOT equal ( one-half does not equal 2)

This is an example of why the commutative property does NOT hold under division!

Summary: Multiplication is commutative, but Division is not!

Final Word: Commutative Property Definitions

In summary, the commutative property only works with addition and multiplication. It does not work with subtraction and division.

For all real numbers a and b:

Commutative Property of Addition Definition: a + b = b + a

Commutative Property of Multiplication Definition: (a)(b) = (b)(a)

The terms are the same, but the order is reversed!

Commutative Property Explained: Video Tutorial

Still confused? Check out the animated video lesson below:

Check out the video lesson below to learn more about the commutative property and to see more commutative property examples:

Extra Practice: Free Commutative Property Worksheet

Are you looking for some extra practice? Click the links below to download your free worksheets and answer key:

Identifying The Commutative Property:

CLICK HERE TO DOWNLOAD YOUR FREE WORKSHEET

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Have thoughts? Share your thoughts in the comments section below!

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By Anthony Persico

Anthony is the content crafter and head educator for YouTube's MashUp Math. You can often find me happily developing animated math lessons to share on my YouTube channel . Or spending way too much time at the gym or playing on my phone.

Absolute Value Calculator Basics: How to Graph and Solve Absolute Value Equations

How can you solve and graph absolute value equations with a calculator?

Welcome to this free lesson guide that accompanies this Absolute Value Calculator Basics YouTube video, where you will learn the following skills:

• Absolute Value Calculator Skill #1: How to use the absolute value function on your graphing calculator (TI-83, TI-84, or TI-84 plus).

• Absolute Value Calculator Skill #2: How to solve basic absolute value equations and expressions on your graphing calculator (TI-83, TI-84, or TI-84 plus).

• Absolute Value Calculator Skill #3: How to graph absolute value equations and expressions on your graphing calculator (TI-83, TI-84, or TI-84 plus).

This Absolute Value Calculator Basics: Complete Guide includes several examples, a step-by-step tutorial, an animated video mini-lesson, and a free worksheet and answer key.

Are you ready to get started!?

*This lesson guide accompanies our animated Absolute Value Calculator Lesson on YouTube.

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Absolute Value Calculator Skill 01:

How to use the absolute value function on your graphing calculator.

Note that the graphing calculators referred to in this guide are the common TI-83, TI-84, and TI-84 plus.

To use the Absolute Value function on your calculator, use the following steps:

Press: MATH > NUM > abs{

Once you hit enter on abs( , as seen in figure one, you can use the absolute value function on your calculator to solve the next two examples.

Solving Absolute Value Example 01

Example 01: Use your graphing calculator to find | -8 | = ?

Solving Absolute Value Example 02

Example 02: Use your graphing calculator to find -| 27 | = ?

*Notice that the negative sign is outside of the absolute value bars.

Absolute Value Calculator Skill 02:

How to solve basic absolute value equations and absolute value expressions on your graphing calculator.

Now that you know how to use the absolute value function on your graphing calculator ( press: MATH > NUM > abs{ ), you can use it to solve basic expressions and equations like in the following examples:

Solving Absolute Value Example 01

Example 01: Use your graphing calculator to find the value of x when x = | 3 -14 + 6 | = ?

Solving Absolute Value Example 02

Example 02: Use your graphing calculator to find the value of x when -2 | -8(11) - 3 | = x

*Make sure you enter the -2 before you input the absolute value

Graphing Absolute Value Equations

Absolute Value Calculator Skill 03:

How to graph absolute value equations using a graphing calculator.

Your graphing calculator is a powerful tool for graphing absolute value equations.

(Note: you can watch a video tutorial on how to solve the following examples by clicking here—skip to minute 3:08)

To graph Absolute Value Equations on your calculator, use the following steps:

Once you hit enter on Y=, as seen in figure 2, you will be able to enter your absolute value equation or absolute value function. Then you just have to press graph to see the graph of your equation on the screen as in the following examples:

Graphing Absolute Value Example 01

Example 01: Use your calculator to find the graph of y = | 2x + 3 |

Graphing Absolute Value Example 02

Example 02: Use your calculator to find the graph of y = -3| x - 1 |

Free Absolute Value Calculator (Online Version)

If you don’t have a graphing calculator, this free online absolute value calculators are great options:

The website www.mathpapa.com offers a very useful (and free) absolute value calculator that you can use for both graphing absolute value equations AND solving absolute value equations.

This free absolute value calculator is a great tool for learning more about graphing and solving absolute value functions and checking your answers.

Observe figure 3 (solving absolute value equations) and figure 4 (graphing absolute value equations) to see examples of how the free online absolute value calculator works.

Absolute Value Calculator Basics: Video Tutorial

Still confused? Check out the animated video lesson below:

Check out the video lesson below to learn more about multiplying fractions and for more free practice problems:

Extra Practice: Free Absolute Value Worksheets

Are you looking for some extra practice? Click the links below to download your free worksheets and answer key:

Solving Absolute Value Equations:

CLICK HERE TO DOWNLOAD YOUR FREE WORKSHEET

Graphing Absolute Value Equations:

CLICK HERE TO DOWNLOAD YOUR FREE WORKSHEET

Tags:  Multiplying Fractions by Whole Numbers, Multiplying Fractions and Whole Numbers, Multiplying Fractions by Whole Numbers Practice, Multiplying Fractions by Whole Numbers Examples, Simplifying Fractions

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