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Question 1137135: What is the equations by graphing on these questions:
1. y=-2x+1y=x-5
2. y+1/2x-3y=3/2x-1
3. y=2xx+y=3
4. x+y=o3x+y=-4
5. x=3-3yx+3y=-6
6. x+2y=-44y=3x+12
7. y=-2 2x-5=20
9. 4x+3y=-15y=x+2
If you can help be with the answers today asap it would greatly appreciated
Answer by MathLover1(20849)   (Show Source):
You can put this solution on YOUR website!
1.
---------------------------rewrite in standard form
| Solved by pluggable solver: Solve the System of Equations by Graphing |
Start with the given system of equations:
In order to graph these equations, we need to solve for y for each equation.
So let's solve for y on the first equation
Start with the given equation
 Subtract  from both sides
 Rearrange the equation
 Divide both sides by 
 Break up the fraction
Reduce
Now lets graph (note: if you need help with graphing, check out this solver)
 Graph of
So let's solve for y on the second equation
Start with the given equation
 Add  to both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
Reduce
Now lets add the graph of to our first plot to get:
 Graph of (red) and (green)
From the graph, we can see that the two lines intersect at the point ( , ) (note: you might have to adjust the window to see the intersection) |
2.
y+1/2x-3y=3/2x-1???????
3.
-----------
| Solved by pluggable solver: Solve the System of Equations by Graphing |
Start with the given system of equations:
In order to graph these equations, we need to solve for y for each equation.
So let's solve for y on the first equation
Start with the given equation
 Add to both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
 Reduce
Now lets graph (note: if you need help with graphing, check out this solver)
 Graph of
So let's solve for y on the second equation
Start with the given equation
 Subtract from both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
 Reduce
Now lets add the graph of to our first plot to get:
 Graph of (red) and (green)
From the graph, we can see that the two lines intersect at the point (,) (note: you might have to adjust the window to see the intersection) |
4.
------------------
| Solved by pluggable solver: Solve the System of Equations by Graphing |
Start with the given system of equations:
In order to graph these equations, we need to solve for y for each equation.
So let's solve for y on the first equation
Start with the given equation
 Subtract from both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
 Reduce
Now lets graph (note: if you need help with graphing, check out this solver)
 Graph of
So let's solve for y on the second equation
Start with the given equation
 Subtract  from both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
 Reduce
Now lets add the graph of to our first plot to get:
 Graph of (red) and (green)
From the graph, we can see that the two lines intersect at the point ( ,) (note: you might have to adjust the window to see the intersection) |
5.
---------------------
| Solved by pluggable solver: Solve the System of Equations by Graphing |
Start with the given system of equations:
In order to graph these equations, we need to solve for y for each equation.
So let's solve for y on the first equation
Start with the given equation
 Subtract from both sides
 Rearrange the equation
 Divide both sides by 
 Break up the fraction
 Reduce
Now lets graph (note: if you need help with graphing, check out this solver)
 Graph of
So let's solve for y on the second equation
Start with the given equation
 Subtract from both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
 Reduce
Now lets add the graph of to our first plot to get:
 Graph of (red) and (green)
From the graph, we can see that the two lines are parallel and will never intersect. So there are no solutions and the system is inconsistent. |
6.
-------------------
| Solved by pluggable solver: Solve the System of Equations by Graphing |
Start with the given system of equations:
In order to graph these equations, we need to solve for y for each equation.
So let's solve for y on the first equation
Start with the given equation
 Subtract from both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
 Reduce
Now lets graph (note: if you need help with graphing, check out this solver)
 Graph of
So let's solve for y on the second equation
Start with the given equation
 Add to both sides
 Rearrange the equation
 Divide both sides by 
 Break up the fraction
 Reduce
Now lets add the graph of to our first plot to get:
 Graph of (red) and (green)
From the graph, we can see that the two lines intersect at the point ( , ) (note: you might have to adjust the window to see the intersection) |
7.
---------------
----------------
->horizontal line
 ->vertical line
intersection point: ( ,)
9.
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| Solved by pluggable solver: Solve the System of Equations by Graphing |
Start with the given system of equations:
In order to graph these equations, we need to solve for y for each equation.
So let's solve for y on the first equation
Start with the given equation
 Subtract  from both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
 Reduce
Now lets graph (note: if you need help with graphing, check out this solver)
 Graph of
So let's solve for y on the second equation
Start with the given equation
 Add to both sides
 Rearrange the equation
 Divide both sides by
 Break up the fraction
Reduce
Now lets add the graph of to our first plot to get:
 Graph of (red) and (green)
From the graph, we can see that the two lines intersect at the point (, ) (note: you might have to adjust the window to see the intersection) |
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