If you have an equation where a variable alone is squared and the other side is a negative, you cannot solve that equaton because it's impossible to take the square root of a negative number. So yes, it's no solution.
The solution is the coordinates of the point where the graphs of the equations intersect.
Solving equations in two unknowns requires two independent equations. Since you have only one equation there is no solution.
Solving equations in two unknowns requires two independent equations. Since you have only one equation there is no solution.
Solving equations in two unknowns requires two independent equations. Since you have only one equation there is no solution.
Solving equations in two unknowns requires two independent equations. Since you have only one equation there is no solution. .
It really is utilized to solve specific variablesIt really is utilized to rearrange the word.
The solution is the coordinates of the point where the graphs of the equations intersect.
Graph both equations on the same graph. Where they intersect is the solution to the system of equations
Solving equations in two unknowns requires two independent equations. Since you have only one equation there is no solution.
A single point, at which the lines intercept.
Then it is not a solution of the original equation. It is quite common, when solving equations involving radicals, or even when solving equations with fractions, that "extraneous" solutions are added in the converted equation - additional solutions that are not solutions of the original equation. For example, when you multiply both sides of an equation by a factor (x-1), this is valid EXCEPT for the case that x = 1. Therefore, in this example, if x = 1 is a solution of the transformed equation, it may not be a solution to the original equation.
Solving equations in two unknowns requires two independent equations. Since you have only one equation there is no solution.
Presumably you'll arrive at the wrong solution.
Graphing
The answer depends on the nature of the equation. Just as there are different ways of solving a linear equation with a real solution and a quadratic equation with real solutions, and other kinds of equations, there are different methods for solving different kinds of imaginary equations.
You get no solution if the lines representing the graphs of both equations have the same slope, i.e. they're parallel. "No solution" is NOT an answer.
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