Because it is "solved for x", x will be by itself on one side of the equation. On the other side will be what x equals.
You move everything else to the other side of the equality sign.
All that you can do is to simplify the left hand side of the "equation" to the expression 2x + 6y + 1. Since the right hand side of the original "equation" is not given, it is, in fact an expression and cannot be solved. In any case, one linear equation in two variables cannot be solved.
That is called "solving for a variable". If there is only one variable in the equation, then it is a "solution". For example, 3x + 4y = 13 can be solved for x as 3x = -4y + 13 x = -(4/3)y + 13/3 This is solved for x. Another equation with only one variable: 5z - 6 = 4 5z = 10 z = 2 This is a solution.
f(x) = -x2 is a function. The equation is solved with just f(x) on one side, and if you were to graph it, it would pass the vertical line test.
Solving a one variable linear equation involves getting the variable on one side of the equals sign by itself. To do this one uses the properties of numbers.
You move everything else to the other side of the equality sign.
All that you can do is to simplify the left hand side of the "equation" to the expression 2x + 6y + 1. Since the right hand side of the original "equation" is not given, it is, in fact an expression and cannot be solved. In any case, one linear equation in two variables cannot be solved.
That is called "solving for a variable". If there is only one variable in the equation, then it is a "solution". For example, 3x + 4y = 13 can be solved for x as 3x = -4y + 13 x = -(4/3)y + 13/3 This is solved for x. Another equation with only one variable: 5z - 6 = 4 5z = 10 z = 2 This is a solution.
An exponential equation is one in which a variable occurs in the exponent.An exponential equation in which each side can be expressed interms of the same base can be solved using the property:If the bases are the same, set the exponents equal.
Isolate the variable
f(x) = -x2 is a function. The equation is solved with just f(x) on one side, and if you were to graph it, it would pass the vertical line test.
Solving a one variable linear equation involves getting the variable on one side of the equals sign by itself. To do this one uses the properties of numbers.
It is an algebraic equation which involves one unknown (n). This equation can be solved for n by adding 5 to each side: n - 5 = 12 → n - 5 + 5 = 12 + 5 → n = 17
5x + 3y + 6 is an algebraic expression. It is not an equation (or inequality) and so cannot be solved. In any case, one linear equation with two variables cannot be solved.
To re-state your question, you could say: a number is equal to 83 minus 81. Is that correct? yup. So, to make this look more like a math problem, lets put this in math notation: 83 - 81 = x To isolate x...hmmm, x is already isolated (all by itself on one side of the equation)! Okay then, we just solve the other side of the equation, 83 - 81 and that equals 2. So, placing the 2 on the side of the equation, you have 2 = x. Ta Da! problem solved! SUPER!
First, you want to get the y on one side of the equation and everything else on the other side. To do this, add 3x to each side: 9y = 3x + 18 The next step is to divide both sides by 9, which gives you the equation solved for y: y = x/3 + 2
Although there are similarities, the solutions to a linear equation comprise all points on one line: a one-dimensional object. The solutions to a linear inequality comprise all points on one side [or the other] of a line: a two-dimensional object.