It is the solution of the given equation.
5.0
There is no value of x that satisfies the equation. You may be missing an operator (+. - sign).
In mathematics, a solution refers to a value or set of values that satisfies an equation, inequality, or system of equations. It is the value or values that make the equation or inequality true.
5a - 1 = a - 7 4a = -6 a = -1.5
The word that describes a value making an equation true is "solution." In the context of an equation, a solution is a specific number that, when substituted for a variable, satisfies the equation. For example, in the equation ( x + 2 = 5 ), the solution is ( x = 3 ).
a solution
5.0
There is no value of x that satisfies the equation. You may be missing an operator (+. - sign).
If you found the value of x that is a solution to an equation, you want to substitute that value back into the original equation, to check that it indeed satisfies the equation. If it does not satisfy the equation, then you made an error in your calculations, and you need to rework the problem.
In mathematics, a solution refers to a value or set of values that satisfies an equation, inequality, or system of equations. It is the value or values that make the equation or inequality true.
5a - 1 = a - 7 4a = -6 a = -1.5
The word that describes a value making an equation true is "solution." In the context of an equation, a solution is a specific number that, when substituted for a variable, satisfies the equation. For example, in the equation ( x + 2 = 5 ), the solution is ( x = 3 ).
Substitute the values for the two variables in the second equation. If the resulting equation is true then the point satisfies the second equation and if not, it does not.
To find the value of "what" in the equation "what - what equals 477," we can set it up as "x - x = 477." However, since any number minus itself equals zero, there is no value of "what" that satisfies this equation. Therefore, the equation is not solvable in standard arithmetic.
None because the numbers 4, 2 and 6 can't be considered to be an equation.
Each and every value of y will satisfy any linear equation in which both x and y appear.
It is the solution to the equation or a root of the equation.