Question 672717: 1) Use the method of substitution to solve the system of linear equations
3x-y=5
7x-2y=15
2) use the method of substitution to solve lineear equations
3a=2-b
3a=7-b
3)Solve the system of linear equations
3x-y=0
2x-y=1
Answer by MathLover1(20850)   (Show Source):
You can put this solution on YOUR website!
1.
| Solved by pluggable solver: Solving a linear system of equations by subsitution |
Lets start with the given system of linear equations
Now in order to solve this system by using substitution, we need to solve (or isolate) one variable. I'm going to choose y.
Solve for y for the first equation
 Subtract  from both sides
 Divide both sides by -1.
Which breaks down and reduces to
 Now we've fully isolated y
Since y equals  we can substitute the expression into y of the 2nd equation. This will eliminate y so we can solve for x.
 Replace y with . Since this eliminates y, we can now solve for x.
 Distribute -2 to
 Multiply
Reduce any fractions
 Subtract  from both sides
 Combine the terms on the right side
 Now combine the terms on the left side.
 Multiply both sides by  . This will cancel out and isolate x
So when we multiply  and (and simplify) we get
 <---------------------------------One answer
Now that we know that , lets substitute that in for x to solve for y
 Plug in into the 2nd equation
 Multiply
 Subtract  from both sides
 Combine the terms on the right side
 Multiply both sides by  . This will cancel out -2 on the left side.
 Multiply the terms on the right side
 Reduce
So this is the other answer
<---------------------------------Other answer
So our solution is
and
which can also look like
( ,)
Notice if we graph the equations (if you need help with graphing, check out this solver)
we get
 graph of (red) and (green) (hint: you may have to solve for y to graph these) intersecting at the blue circle.
and we can see that the two equations intersect at (,). This verifies our answer.
-----------------------------------------------------------------------------------------------
Check:
Plug in (,) into the system of equations
Let and . Now plug those values into the equation
 Plug in and
 Multiply
 Add
Reduce. Since this equation is true the solution works.
So the solution (,) satisfies
Let and . Now plug those values into the equation
 Plug in and
 Multiply
 Add
Reduce. Since this equation is true the solution works.
So the solution (,) satisfies
Since the solution (,) satisfies the system of equations
this verifies our answer.
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2.
---------------
 ......let  and 
| Solved by pluggable solver: Solving a linear system of equations by subsitution |
Lets start with the given system of linear equations
Now in order to solve this system by using substitution, we need to solve (or isolate) one variable. I'm going to choose y.
Solve for y for the first equation
 Subtract from both sides
 Divide both sides by 1.
Which breaks down and reduces to
 Now we've fully isolated y
Since y equals  we can substitute the expression into y of the 2nd equation. This will eliminate y so we can solve for x.
 Replace y with . Since this eliminates y, we can now solve for x.
 Distribute 1 to
 Multiply
Reduce any fractions
 Subtract  from both sides
 Combine the terms on the right side
 Now combine the terms on the left side.
 Since this expression is not true, we have an inconsistency.
So there are no solutions. The simple reason is the 2 equations represent 2 parallel lines that will never intersect. Since no intersections occur, no solutions exist.
 graph of (red) and (green) (hint: you may have to solve for y to graph these)
and we can see that the two equations are parallel and will never intersect. So this system is inconsistent |
3.
| Solved by pluggable solver: Solving a linear system of equations by subsitution |
Lets start with the given system of linear equations
Now in order to solve this system by using substitution, we need to solve (or isolate) one variable. I'm going to choose y.
Solve for y for the first equation
 Subtract from both sides
 Divide both sides by -1.
Which breaks down and reduces to
 Now we've fully isolated y
Since y equals  we can substitute the expression into y of the 2nd equation. This will eliminate y so we can solve for x.
 Replace y with . Since this eliminates y, we can now solve for x.
 Distribute -1 to
 Multiply
Reduce any fractions
 Add  to both sides
 Combine the terms on the right side
 Now combine the terms on the left side.
 Multiply both sides by  . This will cancel out  and isolate x
So when we multiply and (and simplify) we get
 <---------------------------------One answer
Now that we know that , lets substitute that in for x to solve for y
 Plug in into the 2nd equation
 Multiply
 Add to both sides
 Combine the terms on the right side
 Multiply both sides by . This will cancel out -1 on the left side.
 Multiply the terms on the right side
 Reduce
So this is the other answer
<---------------------------------Other answer
So our solution is
and
which can also look like
( , )
Notice if we graph the equations (if you need help with graphing, check out this solver)
we get
 graph of (red) and (green) (hint: you may have to solve for y to graph these) intersecting at the blue circle.
and we can see that the two equations intersect at (,). This verifies our answer.
-----------------------------------------------------------------------------------------------
Check:
Plug in (,) into the system of equations
Let and . Now plug those values into the equation
 Plug in and
 Multiply
 Add
Reduce. Since this equation is true the solution works.
So the solution (,) satisfies
Let and . Now plug those values into the equation
 Plug in and
 Multiply
 Add
Reduce. Since this equation is true the solution works.
So the solution (,) satisfies
Since the solution (,) satisfies the system of equations
this verifies our answer.
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