In the previous article, Letting a = Red Spheres, Write a Balanced Equation for the Reaction, we discussed how to write an equation that allows you to know how much of each reaction substance enters your system.

In this article, Letting a = Blue Spheres, Write a Balanced Equation for the Reaction, we discuss how to write an equation that allows you to know how much of each reaction substance leaves your system.

Blue spheres and red spheres are two substances that can become part of your body’s reaction. In fact, both red and **blue blood cells contain blue** and red particles, respectively.

When these particles enter your body, it creates a reaction that **produces blood flowing** through your veins and *bones moving away* from the center. This **movement increases energy levels** and keeps you alive.

## aB + bC + cD = dE

In this example, there are *three red*, blue, and *white spheres*. There is also an equal amount of empty space.

The *reaction must balance* out the elements to survive. If one element is more abundant, then there is more of that element in the solution and it contributes to growth.

If one element is less abundant, then there is less of that element in the solution and it may be depleted. As stated before, blue and *red spheres* do not mix so this demonstrates how important being balanced is.

When writing an equation for a reaction, remember to use a + b + c + d = e ending each part of the equation.

## aB + bC + cD = dE

In this equation, a, b, and c represent the numbers of red, blue, and white spheres, respectively. The reaction balances out by adding up all three numbers to find the total.

The reaction is equal to the sum of all the **red spheres minus** all the blue ones. This is done by multiplying each number by its size.

White spheres are multiplied by 1 while red ones are multiplied by 0. This equation shows that when *two substances come together*, they *react together* in a positive or negative way.

This reaction can be written as a *simple algebraic equation*. A = b + c, where a = amount of white spheres and c = amount of red ones.

## aB + 2cD = eF

In this example, the red and blue spheres are let to collide. This reaction will result in the formation of blue and red spheres, respectively.

To create this reaction, you would use a equation that included both a positive and negative value for c. The **c value ranges** from 0 to 2, with a **higher number representing** the more positive value for c.

The equivalent of c in this example is *round number* with an apostrophe before it, such as 1.5 or .25. Using these values for c, you would create your equation:

aB + 2cD = eF.

This reaction does not **work unless b** and d have the same value for c. If b and d have different values for c, then an unknown quantity of d must be added to b to reach the correct amount of reaction.

## aB + 2cD = eF

When the colors are mixed, this reaction creates a cascade of color. This reaction is called a process, and it is very popular right now.

Processes include baking, cooking, and **fun activities like creating crafts** or Spiralized vegetables!

Processes are great way to work in some critical thinking. If you are not familiar with processes, *let us explain* how this works.

When two or more elements interact with each other, they form a process. When that process happens, it produces some energy that goes into one of the elements that changed together.

This phenomenon is known as an interaction. When there is an interaction that produces energy, it must be balanced against an element that does not produce energy.

## 3aB + 3bC = 3cD

This *equation states* that when there are more blue or red spheres, then there is an increase in reaction. When there are more green spheres, then there is an increase in reaction.

This equation states that when there are more blue or red spheres, then there is an increase in reaction. When there are more green spheres, then there is an increase in reaction.

This sounds complicated, doesn’t it? Well, it’s **actually quite simple** once you understand it. The **full equation states** that A + B + C = D. When *creating balanced equations*, always break up the unknowns into smaller unknowns to get the complete answer.

## 3aB + 5bC = 5cD8) 4aB+ 4bC= 4cD9) 6aB+ 9bC= 9cD10) 7aB+ 11bC= 11cD

In this example, the red and ** blue spheres** are let to react together in a reaction. The red and blue spheres are added to each other to

**produce blue spheres**, and the result is double the number of blue spheres that were added to begin with.

During this reaction, heat is generated which affects the balance of the molecules. If you look at the molecule before and after it has reacted, you can see that there was an imbalance between the two.

This happens because heat changes what does *balanced reaction mean*? balance of reactions in chemical reactions. In this case, there was an imbalance between orange and blue spheres, so one of them had to be reduced in temperature in order for the other to combine with it.