The\u00a0coordinates<\/strong>\u00a0of that variable -- or, in this case, the line -- is just the distance between a particular point and the origin. If you are familiar with the\u00a0y<\/strong>\u00a0and\u00a0x-axis<\/strong>, you know that there is always a point where both axes are equal to zero. The y-axis runs vertically, and the x-axis runs horizontally. The point at where they intersect is equal to zero.<\/p>\n In a nutshell, to find the origin of a line, determine the point at which both axes of a coordinate system intersect, and all coordinates equal zero.<\/p>\n In a two-way or dimensional plane, the horizontal line is the x-axis, and the vertical line is the y-axis. The point at which they meet each other, 0,\u00a0is labeled as their intersect. At this point, the x-axis and y-axis coordinates are\u00a0(0, 0).<\/p>\n Now that we have established what the origin is in a two-dimensional plane let's add a third line to the mix. This third line is mapped against the x-axis and the y-axis and passes through the origin of the first two lines. This line is often called the\u00a0z-axis<\/strong>\u00a0and has the coordinates (0, 0, 0).<\/p>\n This third line passes through the origin of the x and y-axis. This point is the origin of that line.<\/p>\n In the next example, line z has two coordinates (x1, y1) and (x1, y1) on both axes. If the line cuts directly through the origin, this means that at one point, one of these coordinates is equal to zero.<\/p>\n In the figure above, notice how the coordinates of the third line will not be equal to zero. This means that it did not pass through the origin. To find the origin of a line, look for the point at which the intercept is equal to zero. Although most things in life do have an origin, not all lines do. Any line whose intercept is not equal zero did not pass through the origin and therefore does not have an origin.<\/p>\n The equation of a straight line is y = mx + c. If c, which is the intercept, is\u00a0 = 0, this means that y = mx. On the other hand, The equation for a straight line passing through two points is (y \u2013 y1)\/ (y2 \u2013 y1) = (x \u2013 x1)\/(x2 \u2013 x1). In this formula, the two points are (x1, y1) and (x2, y2).<\/p>\n This can also be written as y \u2013 y1 = ((y2 \u2013 y1)\/(x2 \u2013 x1)) *(x \u2013 x1) because c = 0.<\/p>\n But both x and y are equal to 0 so substituting the y and x gives us x1*(y2-y1) = y1*(x2-x1).<\/p>\n If you have the formula of a line and the coordinates satisfy the equation x1*(y2-y1) = y1*(x2-x1), then this means that the line passes through the origin which the is origin of that line.<\/p>\n < >If the coordinates of a line are given as (x1, y1) = (6, 0) and (x2, y2) = (12, 0), this means that the line passes through the origin at a point where the value of x is equal to 6 and 12. This is the origin of that line. If the coordinates of a line are given as (x1, y1) = (4, 12) and (x2, y2) = (12, 34), this means that the line does not pass through the origin at any point all. This line does not have an origin.<\/p>\n The first step to finding the origin of a line is identifying if it passes through c, the intercept of the y and x-axis. If it does, then the point which it passes through is the origin of that line.<\/p>\n In other words, the point when the coordinates of a line at either y or x-xis is equal to zero is the origin of that line.<\/p>\nWorking with a Flat\u00a0Coordinate Plane<\/h2>\n
![\"\"](\"https:\/\/asavana.com\/sites\/default\/files\/u53\/origin%201.PNG\")
<\/p>\nIntroducing the Third Line to the Flat Coordinate Plane<\/h2>\n
![\"\"](\"https:\/\/asavana.com\/sites\/default\/files\/u53\/origin%202.PNG\")
<\/p>\n![\"\"](\"https:\/\/asavana.com\/sites\/default\/files\/u53\/origin%203.PNG\")
<\/p>\nExamples:<\/h2>\n
Conclusion<\/h2>\n