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What is an equation where the graph of all solutions lies on a line?
There are an infinite number of equations that meet that requirement. One of them is y = x
How do you know if a point is a solution if you are looking at the graph?
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.
Which point lies on the graph of the equation 3x plus 2y 7x - 5?
To determine which point lies on the graph of the equation (3x + 2y = 7x - 5), first, we can rewrite it in standard form. Rearranging gives (2y = 4x - 5) or (y = 2x - \frac{5}{2}). You can then test specific points (like integers) to see which satisfies this equation. For example, if you substitute (x = 2), then (y = 2(2) - \frac{5}{2} = 4 - 2.5 = 1.5), so the point (2, 1.5) lies on the graph.
It is an equation that has an infinite many solution?
An equation with infinitely many solutions typically occurs when it represents a relationship that can be satisfied by numerous values. For instance, the equation (y = 2x + 3) defines a straight line on a graph, meaning any point (x, y) that lies on that line is a solution. Similarly, equations like (0 = 0) or (x - x = 0) have infinite solutions because they are true for all values of the variables involved. In essence, these equations do not restrict the values that can satisfy them.
What ordered pair is on the graph of the equation 3x 7y 11?
To determine an ordered pair that lies on the graph of the equation (3x + 7y = 11), we can choose a value for (x) and solve for (y). For example, if we let (x = 0), then (3(0) + 7y = 11) simplifies to (7y = 11), giving (y = \frac{11}{7}). Therefore, the ordered pair ((0, \frac{11}{7})) is on the graph of the equation.
An equation where the graph of all solutions lies on a line?
If it is a straight line, then the equation is linear.
What is an equation where the graph of all solutions lies on a line?
There are an infinite number of equations that meet that requirement. One of them is y = x
What do you mean if a linear model underestimates?
In graph form, the linear equation lies below the true line or curve.
How do you know if a point is a solution if you are looking at the graph?
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.
It is an equation that has an infinite many solution?
An equation with infinitely many solutions typically occurs when it represents a relationship that can be satisfied by numerous values. For instance, the equation (y = 2x + 3) defines a straight line on a graph, meaning any point (x, y) that lies on that line is a solution. Similarly, equations like (0 = 0) or (x - x = 0) have infinite solutions because they are true for all values of the variables involved. In essence, these equations do not restrict the values that can satisfy them.
Using the discriminant how many times does the graph of this equation cross the x axis 3x2 plus 6x plus 20?
In this case, the discriminant is less than zero and the graph of this parabola lies above the x-axis. It never crosses.
What ordered pairs lies on the graph of hx equals -2x2?
hx = -2x2We have to assume that 'h' is some constant that you know but we don't.The graph of this equation contains no ordered pairs, since there's only one variable.If you must graph it, then the space you need to use is the number line. The twosolutions to the equation are points on the number line ... one point at [ zero ],and the other at [ - h/2 ] .
Where is the x -acsies on a graph?
The x axis is the one that lies horizontal. It can be denoted by the equation y=0. A good way to remember this is to think "x is a cross" as in "x is across."
A situation in which variables lies?
an equation
Which point lies on the line whose equation is 2x-3y9?
Without an equality sign it can not be considered to be an equation
What lies between a solution and a suspension?
You think probably to colloidal solutions.
How do you determine if a point lies on the same line?
A point lies on a line if the coordinates of the point satisfy the equation of the line.
