# system of equations how to solve easy

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A system of equations is a set of two or more equations that you can solve together. Usually, these equations have the same variables, which means that the solutions to the equations will be the same values for those variables. There are a few different methods you can use to solve a system of equations, but in this blog post, we’ll focus on the substitution method. This method involves solving one of the equations for one of the variables, and then plugging that value into the other equation. With some algebraic manipulation, you should be able to solve for the other variable, and then find both values for your solution.

## What is a system of equations?

A system of equations is a set of equations that are all related to each other. In order to solve a system of equations, you must find a way to make all of the equations true at the same time. This can be done by using one or more of the following methods:

– Substitution: solving one equation for a variable and then plugging that value into the other equation(s).
– Elimination: adding or subtracting two equations from each other so that one variable cancels out.
– Graphing: plotting both equations on a graph and finding the point(s) of intersection.

Once you have found a solution to the system of equations, you can check your work by plugging the values back into the original equations.

## What are the different types of systems of equations?

Systems of linear equations have a unique solution. The equations are graphed as lines on a coordinate plane and the point of intersection is the solution.

Systems of nonlinear equations do not have a unique solution. The equations are graphed as curves on a coordinate plane and there is no intersecting point.

Systems of simultaneous equations are systems of two or more linear or nonlinear equations that are solved together.

## How to solve a system of equations using elimination

In order to solve a system of equations using elimination, you will need to follow these steps:

1) First, identify which equation is the “elimination equation.” This is the equation that will be used to eliminate one of the variables.

2) Next, use the coefficients of the variable in the elimination equation to create a multiplicative factor for one or both of the other equations.

3) Multiply each side of the other equations by this factor, and then add the corresponding sides of the equations together.

4) This will result in an equation with only one variable, which can then be solved using traditional algebraic methods.

5) Once you have found the value of this variable, you can plug it back into any of the original equations to find the values of the other variables.

## How to solve a system of equations using substitution

There are a few different ways to solve a system of equations, but one way is by using substitution. To do this, you’ll need to find one equation that has only one variable. Then, you solve for that variable and plug the result into the other equation. This will give you one equation with one variable, which you can then solve. Let’s try an example:

System of Equations:

2x + 3y = 8
4x – 2y = 2

First, we’ll choose the second equation and solve for x. We do this by adding 2y to each side and then dividing each side by 4. This gives us:

x = 1/2(2 + 2y)

Now we’ll plug this back into the first equation. We substitute x with 1/2(2 + 2y) and solve for y:
8 – 3(1/2)(2 + 2y) = 0 —> 8 – 6 – 6y = 0 —> -6-6y = 0 —> y=-1

## How to solve a system of equations using graphing

There are a few different ways to solve a system of equations, but graphing is probably the most popular method. To graph a system of equations, you’ll need to plot the equations on a coordinate plane and look for the point of intersection.

If the lines intersect at a single point, then you’ve found the solution to the system of equations. However, if the lines never intersect or they intersect at more than one point, then there is no solution. In this case, you’ll need to use another method, such as substitution or elimination, to solve the system.

## Conclusion

So there you have it, a step-by-step guide on how to solve a system of equations. Practice makes perfect, so don’t be discouraged if you don’t get it right the first time. With a little bit of patience and perseverance, you’ll be solving systems of equations like a pro in no time!