use the formula y-y1=m(x-x1)
The equation is x = -7.
The point (0, -5) is the y-intercept (x = 0)
There are literally infinite functions that can contain that single point. The simplest is y = x/2.
The parallel equation works out as: 4y = 3x+1 which can be expressed in the form of 3x-4y+1 = 0
If the slope is 2/3 and the coordinate is (2, -1) then the straight line equation is 3y=2x-7
To determine if a point is a solution on a graph, check if the point's coordinates (x, y) satisfy the equation of the graph. If the point lies on the curve or line representing the equation, it is a solution. For instance, if the equation is y = f(x), substitute the x-coordinate into the equation to see if it equals the y-coordinate. If it does, the point is a solution.
You substitute the coordinates of the point in the equation. If the result is true then the point is a solution and if it is false it is not a solution.
It's the equation of a straight line. Every point on the line is a solution to the equation. There are an infinite number of them.
It's the equation of a straight-line graph. Every point on the line is a solution of the equation. There are an infinite number of them.
Substitute the coordinates of the point into the equation and if the result is a true statement then the point is a solution, and if not it isn't.
If the discriminant of a quadratic equation equals zero, it indicates that the equation has exactly one real solution, also known as a repeated or double root. This occurs because the quadratic touches the x-axis at a single point, rather than crossing it. Mathematically, this means that the two roots are the same, resulting in one unique solution for the equation.
Yes its on the line.
A line is represented by an equation. Each solution of the equation is a point on the line, and each point on the line is a solution to the equation. So the line is just the graph of the solution set of the equation.
No you can't. There is no unique solution for 'x' and 'y'. The equation describes a parabola, and every point on the parabola satisfies the equation.
This is a linear equation in two variables and the coordinates of each and every point on the line that it describes is a solution. A single linear equation does not have an "answer".
If this question is asking: is the point (6,9) a solution of the equation y = 12x + 6, then NO, it's not a solution.
This is an equation of a straight line. A solution for two unknowns requires two (independent) equations; there is only one here. Every point that is on that line is a solution to the equation. So you can let x be any real number and find a corresponding y. This ordered pair (x,y) will be a solution to the equation as well as a point on the graph of the line.