How do you solve #x+ \frac { 3} { x - 1} = \frac { 3x } { x - 1}#?

2 Answers
Nov 28, 2016

#x = 3#

#x = 1# is not a solution because a denominator of #0#, (1 - 1 = 0) is irrational.

Explanation:

First, you need to get all terms over a common denominator, in this case #x - 1#.

#(x-1)/(x-1) * x + 3/(x-1) = (3x)/(x - 1)#

#(x^2 - x)/(x - 1) + 3/(x - 1) = (3x)/(x - 1)#

We can now get this in terms of a quadratic equation over a fraction equaling zero:L

#(x^2 - x + 3)/(x - 1) - (3x)/(x - 1) = (3x)/(x - 1) - (3x)/(x - 1)#

#(x^2 - x - 3x + 3)/(x-1) = 0#

#(x^2 - 4x + 3)/(x-1) = 0#

Now, we can multiple by (x - 1) on each side of the equation to eliminate the fraction and keep the equation balanced:

#(x - 1)(x^2 - 4x + 3)/(x -1 ) = 0*(x - 1)#

#(x^2 - 4x + 3) = 0#

Factoring the quadratic equation gives:

#(x - 3)(x - 1) = 0#

Solving for #(x - 3)# gives:

#(x - 3)(x - 1)/(x - 1) = 0/(x - 1)#

#x - 3 = 0#

#x - 3 + 3 = 0 + 3#

#x = 3#

Solving for #(x - 1)# gives:

#(x - 3)/(x -3) (x - 1) = 0/(x - 3)#

#x - 1 = 0#

#x - 1 + 1 = 0 + 1#

#x = 1#

Nov 28, 2016

#x = 3#

Explanation:

When you have an equation with fractions, you can get rid of the denominators by multiplying each term by the LCM of the denominators, in this case #(x-1)#

#x xxcolor(blue)((x-1))+ (3xxcolor(blue)(cancel(x-1)))/(cancel(x-1))= (3x xx(color(blue)cancel(x-1)))/(cancel(x-1)) " " x!=1#

#x^2-x +3 = 3x" "larr#a quadratic, set equal to 0

#x^2-4x +3 = 0" "larr# find factors

#(x-3)(x-1)= 0#

Let each factor be equal to 0.

#x-3 = 0 rarr x = 3#

#x-1 = 0 rarr x = 1#

Reject x = 1, denominator may not be 0.

#x = 3#