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
64x = 37 Divide both sides by 64: x = 37/64 or 0.578125
The figures are exactly the same, but every point on the first graph is exactly 13 below the corresponding point on the second one.
Devide both sides by 64 X=0.1875 0.1875 *64= 12
6xy=13 y=13/6x You may be confused at this point because your graphing calculator graphs a line when you plug in this equation. What your calculator is doing is (13/6)x=y which is indeed a line. However, you are working on inverse variations. Plug this into your calculator y=13/(6x) How is that different? Just look at the graph.
3x + 2y = 13Subtract 3x from each side:2y = -3x + 13Divide each side by 2:y = (-3/2)x + (13/2)The graph is a straight line, with a slope of (-3/2),through the point (0, 13/2) .
64x = 37 Divide both sides by 64: x = 37/64 or 0.578125
x2 = 6482 = 64x = 8
The figures are exactly the same, but every point on the first graph is exactly 13 below the corresponding point on the second one.
4096
an upside down parabola
Devide both sides by 64 X=0.1875 0.1875 *64= 12
Divide both sides by 64 to find the value of x
No translation will invert a quadratic graph.
35
6xy=13 y=13/6x You may be confused at this point because your graphing calculator graphs a line when you plug in this equation. What your calculator is doing is (13/6)x=y which is indeed a line. However, you are working on inverse variations. Plug this into your calculator y=13/(6x) How is that different? Just look at the graph.
3x + 2y = 13Subtract 3x from each side:2y = -3x + 13Divide each side by 2:y = (-3/2)x + (13/2)The graph is a straight line, with a slope of (-3/2),through the point (0, 13/2) .
The highest point on a graph is when the derivative of the graph equals 0 or the slope is constant.