The equation ( y = 4x ) represents a straight line where the slope is 4 and the y-intercept is 0. Points on this graph can be found by choosing any value for ( x ) and calculating the corresponding ( y ) value. For example, if ( x = 1 ), then ( y = 4(1) = 4 ), giving the point (1, 4). Similarly, if ( x = -1 ), then ( y = 4(-1) = -4 ), resulting in the point (-1, -4).
Find the two X intercepts. Set = to 0 4X + 3 = 0 X = -3/4 ( while Y = 3) 4X - 2 = 0 X = 1/2 ( while Y = -2) Now you have two points for each parallel line and can draw the graph
6 - 4x = 13 So 4x = -7 or x = -7/4 = -1.75 In 1-dimension, the graph would consist of the single point x = -1.75 In 2-dimensions, the graph would consist of the vertical line, passing through x = -1.75 In 3-dimensions, the graph would consist of the plane parallel to the y-z axes and passing through x = -1.75
The x intercept is at (84, 0) and the y intercept is at (0, 112) and so with a line join the points together which then will form a graph for the given equation.
It seems there is a typo in your function rule. If you meant ( f(x) = 10 + 4x ), then the points on the graph can be determined by substituting different x-values. For example, if ( x = 0 ), then ( f(0) = 10 ) (point (0, 10)). If ( x = 1 ), then ( f(1) = 14 ) (point (1, 14)). Other points can be calculated similarly.
Select a set of values for x. For each value of x calculate the corresponding value of y using the function x2 - 4x - 4. Plot these points and join together with as smooth a curve as you can manage.
If you mean y = -4x-6 then it is a straight line equation that can be graphed on the Cartesian plane
Since there are no "following" points, none of them.
It is a straight line which goes through the points (2,0) and (0, -4)
To shift the graph of y = 4x + 7 down, you would subtract a constant from the equation. In this case, you would subtract 7 from the equation to shift it downward. The new equation would be y = 4x. This would shift the entire graph downward by 7 units along the y-axis.
Find the two X intercepts. Set = to 0 4X + 3 = 0 X = -3/4 ( while Y = 3) 4X - 2 = 0 X = 1/2 ( while Y = -2) Now you have two points for each parallel line and can draw the graph
6 - 4x = 13 So 4x = -7 or x = -7/4 = -1.75 In 1-dimension, the graph would consist of the single point x = -1.75 In 2-dimensions, the graph would consist of the vertical line, passing through x = -1.75 In 3-dimensions, the graph would consist of the plane parallel to the y-z axes and passing through x = -1.75
One way would be to graph the two equations: the parabola y = x² + 4x + 3, and the straight line y = 2x + 6. The two points where the straight line intersects the parabola are the solutions. The 2 solution points are (1,8) and (-3,0)
The y-intercept of the graph of 4x + 2y =12 is probably 6
The x intercept is at (84, 0) and the y intercept is at (0, 112) and so with a line join the points together which then will form a graph for the given equation.
Select a few values for "x"; calculate the corresponding "y" values; plot the points on the graphing paper; join the points with lines. In fact, that's the method used to draw just about any graph.
It seems there is a typo in your function rule. If you meant ( f(x) = 10 + 4x ), then the points on the graph can be determined by substituting different x-values. For example, if ( x = 0 ), then ( f(0) = 10 ) (point (0, 10)). If ( x = 1 ), then ( f(1) = 14 ) (point (1, 14)). Other points can be calculated similarly.
The x intercept is at (84, 0) and the y intercept is at (0, 112) and so with a line join the points together which then will form a graph for the given equation.