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The gradient of a line The gradient of a line is a specific term for the steepness of a straight line. We all have an in-built sense of steepness and can.

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Presentation on theme: "The gradient of a line The gradient of a line is a specific term for the steepness of a straight line. We all have an in-built sense of steepness and can."— Presentation transcript:

1 The gradient of a line The gradient of a line is a specific term for the steepness of a straight line. We all have an in-built sense of steepness and can order the steepness of lines. However, the gradient gives a numerical value to this general understanding.

2 To calculate the gradient of a line we count the vertical distance that line increases and horizontal distance that the line and then use the following calculation. gradient = vertical change horizontal change

3 4 6 A B 6 3 C D 7 1 E F Gradient AB = vertical horizontal = 6 4 =1.5

4 A B C

5 Note: A negative gradient means that the line is travelling downhill or a decline.

6 Calculating the gradient from co-ordinates It is possible to calculate the gradient of a line just by knowing two co-ordinates that the line passes through. This can be achieved in two ways: 1.Draw the co-ordinates on a grid and use the previous method. Gradient = Change in y Change in x Vertical horizontal =

7 2. Using a formula that has been specifically generated for the calculation. Let a line pass through two co-ordinates (X 1,Y 1 ) and (X 2,Y 2 ). Gradient = Change in y Change in x = Y 2 - Y 1 X 2 - X 1

8 (X 1,Y 1 ) (X 2,Y 2 ) Y 2 - Y 1 X 2 - X 1

9 Example: Calculate the gradient of the line between the following pairs of co-ordinates. 1. (1,2) and (5,18) Note: The gradient of a line is more usually given the label (m). Y 2 - Y 1 X 2 - X 1 = m 18 - 2 5 - 1 = = 16 4 =4

10 2.(7,5) and (3,13) Y 2 - Y 1 X 2 - X 1 = m 13 - 5 3 - 7 = = 8 -4 =-2 3.(4, -2) and (-2, -5) Y 2 - Y 1 X 2 - X 1 = m -5 – (-2) - 2 - 4 = = - 3 - 6 = ½

11 3.(4, -2) and (-2, -5) x (4, -2) x (-2, -5) x y 3 6

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