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Gradient of a line

Cartesian plane. Line drawn through points A, B, P and Q.
Detailed description

The gradient of a line is defined to be the gradient of any interval within the line.
This definition depends on the fact that two intervals on a line have the same gradient.

Suppose AB and PQ are two intervals on the same straight line. Draw right-angled triangles ABX and PQY with sides AX and PY parallel to the x-axis and sides BX and QY parallel to the y-axis.
Triangle ABX is similar to triangle PQY since the corresponding angles are equal. Therefore:

\(\dfrac{QY}{PY} = \dfrac{BX}{AX}\).

That is, the intervals have the same gradient.

Example 4

A line passes through the points (1, 2) and (5, 10). Find its gradient.

Cartesian plane. Points (1, 2), (5, 10) shown.
Detailed description

Solution

\begin{align}\text{Gradient} &= \dfrac{y_2 - y_1}{x_2 - x_1}\\\\ &= \dfrac{10 - 2}{5 - 1}\\\\ &= \dfrac{8}{4}\\\\ &=2\end{align}

Example 5

A line passes through the point (5, 7) and has gradient \(\dfrac{2}{3}\). Find the x-coordinate of a point on the line when y = 13.

Solution

Cartesian plane. Points (5, 7), (x, 13) shown.
Detailed description

\begin{align}\text{Gradient of the line} &= \dfrac{6}{x - 5}. \text{Thus:}\\\\ \dfrac{6}{x - 5} &= \dfrac{2}{3}\\\\ 18 &= 2(x\ –\ 5)\\\\ 9 &= x\ –\ 5\\\\ x &= 14\end{align}