200 likes | 248 Vues
y. y. x. x. Straight Line Equation. y = -2x + 3. No of videos 0 1 2 3 4 5 6 Cost of Videos(£). The Video Shop. You join a video shop for a membership fee of £3 and then charges £2 for each video you hire:. Complete the table below for the cost of hiring different numbers of videos. 3.
E N D
y y x x Straight Line Equation. y = -2x + 3
No of videos 0 1 2 3 4 5 6 Cost of Videos(£) The Video Shop. You join a video shop for a membership fee of £3 and then charges £2 for each video you hire: Complete the table below for the cost of hiring different numbers of videos. 3 5 7 9 11 13 15 Now draw a graph of the table above.
Cost 14 10 9 4 0 5 1 6 2 3 13 8 12 6 7 11 5 1 4 3 2 No ofVideos Graph of videos hired against cost.
Cost 14 10 9 0 4 5 1 6 2 3 13 8 12 6 7 11 5 1 4 3 2 No ofVideos Now consider the structure of the graph. The graph cuts the y axis at (0,3) because it cost £3 to join the video shop before you hired any videos. For every square that you move to the right you go two squares up because the cost of each video is £2.
V 0 1 2 3 4 5 6 C 3 5 7 9 11 13 15 This was the place were the graph cut the y axis. This is called the y axis intercept. This was the number of squares you went up for each one you went along.This is called the gradient of the line. Finding A Formula. Look at the table of values for the video hire once again: Find a formula for the cost of videos (C) given the number of videos (V) : C = 2V + 3 From the graph we saw that :
5 No of videos 0 1 2 3 4 5 6 Cost of Videos(£) Now repeat the question again for a video shop charging £5 to join and £3 for each video hired.Start by completing the table below. Answer the questions below: Where does the graph cut the y axis ? ( 0 , 5 ) What is the gradient of the line: Gradient = 3 The full graph is shown on the next slide:
Cost 10 14 9 C = 3V + 5 Is the equation of the line. 0 4 1 5 6 2 3 13 8 12 6 7 Gradient of 3. 11 5 1 Y axis intercept (0,5) 4 3 2 No ofVideos
More About The Gradient. The gradient (m) of a straight line is defined to be: Change in vertical height. Change in horizontal distance. We are going to use this definition to calculate the gradient of various straight lines:
Find the gradients of the straight lines below: (1) (2) (3) 4 7 m = 4 3 7 4 m = 3 4 4 4 m = 4 4 m = 1
(5) (6) 8 9 6 3 8 4 9 m = = m = = 3 6 3 3
(b) (d) (a) (c) (e) Negative Gradient Consider the straight lines shown below: Can you split the lines into two groups based on their gradients ? Positive gradient Lines (a) (c) and (d) slope upwards from left to right. Negative gradient Lines (b) and (e) slope downwards from left to right.
Calculate the gradients of the lines below: (1) (2) - 4 - 8 5 6
The Equation Of A Straight Line. To find the equation of any straight line we require to know two things: (a) The gradient of the line. m = gradient. (b) The y axis intercept of the line. c = y axis intercept. The equation of a straight line is : y = m x + c Examples. Give the gradient and the y axis intercept for each of the following lines. (1) y = 6x + 5 (2) y = 4x + 2 (3) y = x - 3 m = 6 c = 5 m = 4 c = 2 m = 1 c = - 3
y y (1) (2) x x Finding The Equation. Find the equation of the straight lines below: What is the gradient ? m = 1 What is the y axis intercept? c = 2 c = 1 Now use y = m x + c y = x + 2
y y x x m = -2 (3) (4) c = 3 y = -2x + 3 c = -2
y y (6) (5) x x c = 2 c = 6
y2 y2-y1 y1 x2-x1 x1 x2 Gradient of line: The Gradient Formula. The Gradient Formula. It shows a straight line passing through the points (x1,y1) and (x2,y2). Look at the diagram below: We must calculate the gradient of the line using the triangle shown: Change in vertical height: y2 – y1 Change in horizontal distance: x2-x1
Gradient of line: Calculate the gradient of the line through the points below: (2) C(-4,8) and D(6,-10) (1) A(4,6) and B( 10,12) Solution: Solution: Write down the gradient formula: Substitute in your values: Calculate and simplify:
Straight Line From Two Points. Find the equation of the straight line passing through (4,6) and (8,12) Solution: Now substitute one of the points into y = m x + c to find c. Find the gradient of the line: Sub’ (4,6) into y = 3x +c : 6 = 3 x 4 +c c + 12 = 6 c = - 6 Substitute gradient into y = m x + c. Now write down the equation of the straight line: y = 3 x + c y = 3x - 6
Find the equation of a straight line passing through C(6,-7) and D(-12,9) Solution. Now substitute one of the points into y = m x + c to find c. Calculate the gradient: Sub’ (6,-7) into equation: Substitute gradient into y = m x + c. c = -23 Equation of the straight line: