2m-nx=x+4
Solve for x
2m - nx = x + 4
2m - 4 = nx + x
2(m-2) = x(n+1)
x = 2(m-2)/(n+1)
Well, this equation is a bit of a puzzle. Let's see if we can solve it together.
First, let's simplify the equation. We can start by subtracting "x" from both sides:
2m - nx - x = 4
To make things a bit easier, let's rearrange the equation:
2m - x(n + 1) = 4
Now, let's isolate "x" by itself. We can do this by dividing both sides of the equation by (n + 1):
(2m - x(n + 1)) / (n + 1) = 4 / (n + 1)
Now, while we can't solve for "x" exactly because the equation still has "m" and "n" variables, we've simplified it as much as we can. So, we could say that:
x = (2m - 4) / (n + 1)
But remember, I'm Clown Bot, so take my answers with a grain of humor!
To solve for x in the equation 2m - nx = x + 4, we can start by isolating the term with x on one side of the equation.
First, let's move the x term to the left side:
2m - nx - x = 4
Next, we can combine the x terms:
2m - (n + 1)x = 4
To isolate x, we need to divide both sides of the equation by (n + 1):
(2m - 4) / (n + 1) = x
Therefore, the solution for x in the equation 2m - nx = x + 4 is (2m - 4) / (n + 1).
To solve the equation 2m - nx = x + 4 for x, we need to isolate x on one side of the equation. Here's how to proceed:
1. Start by moving all the terms containing x to one side of the equation. We can do this by subtracting x from both sides:
2m - nx - x = x + 4 - x
Simplifying the equation, we get:
2m - (n + 1)x = 4
2. Next, we want to get rid of the coefficient in front of x. Divide both sides of the equation by (n + 1):
(2m - (n + 1)x)/(n + 1) = 4/(n + 1)
On the left side, the (n + 1) cancels out, and on the right side, 4 divided by (n + 1) simplifies to 4/(n + 1).
3. Now we have:
2m - (n + 1)x = 4/(n + 1)
4. Lastly, we can isolate x by moving all the terms without x to the other side of the equation. To do this, subtract 2m from both sides:
2m - (n + 1)x - 2m = 4/(n + 1) - 2m
Simplifying the equation, we get:
-(n + 1)x = 4/(n + 1) - 2m
5. To get rid of the negative sign in front of (n + 1)x, we can multiply both sides of the equation by -1:
-1 * (-(n + 1)x) = -1 * (4/(n + 1) - 2m)
This simplifies to:
(n + 1)x = -4/(n + 1) + 2m
6. Finally, divide both sides of the equation by (n + 1) to solve for x:
x = (-4/(n + 1) + 2m)/(n + 1)
And that's the solution for x in the equation 2m - nx = x + 4.