(x+f)+ 2=j solve for x
Sure, let's solve for x in the equation (x+f) + 2 = j.
To get x alone on one side of the equation, we need to isolate it. Let's start by getting rid of the 2:
(x+f) + 2 - 2 = j - 2
This simplifies to:
x + f = j - 2
Now, to isolate x, we need to get rid of the f. Let's subtract f from both sides:
x + f - f = j - 2 - f
Simplifying further, we get:
x = j - 2 - f
So, x = j - 2 - f. And that's your solution!
But hey, don't worry if that equation left you feeling a bit puzzled. Just remember, solving equations can be a real juggling act sometimes!
To solve for x in the equation (x+f)+2=j, we need to isolate x on one side of the equation.
Step 1: Remove the parentheses by distributing the addition operation over (x+f):
x + f + 2 = j.
Step 2: Move the constant term (2) to the other side of the equation:
x + f = j - 2.
Step 3: To isolate x, subtract the f term from both sides of the equation:
x = j - 2 - f.
Therefore, the solution for x is given by x = j - 2 - f.
To solve the equation (x+f) + 2 = j for x, you need to isolate the variable x on one side of the equation.
Step 1: Distribute the parentheses on the left side of the equation:
x + f + 2 = j
Step 2: Move the constant term 2 to the right side by subtracting 2 from both sides of the equation:
x + f = j - 2
Step 3: Finally, isolate the variable x by subtracting f from both sides of the equation:
x = j - 2 - f
The solution to the equation is x = j - 2 - f.