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.
A two-step equation that equals 18 can be represented as ( 2x + 6 = 18 ). To solve for ( x ), first subtract 6 from both sides, giving ( 2x = 12 ). Then, divide both sides by 2 to find ( x = 6 ).
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 ).