11
1 + 12 = 13
3x+3=30 X=9
One out of many examples of two step equations that equal 29 is: (9 x 3) + 2
How about: x+11 = 33 => x = 33-11 => x = 22
Well, isn't that just a happy little question! To create a two-step equation that equals 11, you can start with x + 3 = 14. First, you would subtract 3 from both sides to get x = 11. And there you have it, a lovely little equation that equals 11. Just remember, there are no mistakes, only happy little accidents in math!
An example of a two step equation that equals 2 is 4 + 2x = 2. In this equation, x = -1.
3+1-1=
1 + 12 = 13
3x+3=30 X=9
A two-step equation that equals 23 could be represented as (2x + 5 = 23). To solve for (x), first subtract 5 from both sides to get (2x = 18), and then divide by 2, resulting in (x = 9).
A two-step equation with a variable that equals 23 could be (2x + 5 = 23). To solve for (x), first subtract 5 from both sides to get (2x = 18), and then divide by 2 to find (x = 9). Thus, the solution satisfies the original equation.
One out of many examples of two step equations that equal 29 is: (9 x 3) + 2
A simple two-step equation that equals 21 is (2x + 5 = 21). To solve for (x), first subtract 5 from both sides, giving (2x = 16). Then, divide both sides by 2 to find (x = 8). Thus, the solution to the equation is (x = 8).
In a two step equation, you need to do another step.
How about: x+11 = 33 => x = 33-11 => x = 22
A simple two-step equation that equals two is ( 3x - 4 = 2 ). To solve it, first add 4 to both sides, resulting in ( 3x = 6 ). Then, divide both sides by 3 to find ( x = 2 ). Thus, the equation is satisfied when ( x = 2 ).
You cannot solve one linear equation in two unknown variables (x and y), although some non-linear equations will suffice. You need two independent linear equations. All you can do is express one of the variables in terms of the other, but that is not solving the equation.