1. The Mid-Ordinate Rule

2. To find an area bounded by a curve, we need to evaluate a definite integral.
If the integral cannot be evaluated, we can use an approximate method.
You have already met the Trapezium rule for doing this. This lesson introduces another method, the mid-ordinate rule.

3. Mid-Ordinate Rule
Aims: To use the mid-ordinate rule to approximate the area under a curve.

4. Lesson Outcomes Name: Know what the mid-ordinate rule is.
Describe: How to use the mid-ordinate rule to approximate the area under a curve.
Explain how the mid-ordinate rule may be improved.

5. Mid-Ordinate Rule
The mid-ordinate rule approximates the area under a curve with rectangles of equal width.

6. The Formula In the formula booklet…
It is much easier to learn what it means.

7. The mid-ordinate rule for estimating an area is
SUMMARY
The mid-ordinate rule for estimating an area is
where n is the number of strips.
The width, h, of each strip is given by
( but should be checked on a sketch )
The 1st x-value is at the mid-point of the width of the 1st rectangle:
The number of ordinates is the same as the number of strips.
The accuracy can be improved by increasing n.

8. Exercises
1. Estimate
using the mid-ordinate
rule with 4 strips, giving your answer to 3 d.p. How can your answer be improved?
2. Estimate
using the mid-ordinate
rule with 3 strips. Give your answer to 3 s.f.
N.B. Radians !

9. Solutions 1.
The answer can be improved by using more strips.

10. Solutions

11. The following sketches show sample rectangles where the mid-ordinate rule under- and over-estimates the area.
Under-estimates
( concave upwards )
Over-estimates
( concave downwards )
The blue shaded areas are not under the curve but are included in the rectangle.
The red shaded areas should be included but are not.

16. Questions about the integral ∫02 √(1+x3)dx
Questions about the integral ∫02 √(1+x3)dx. The value of this integral, correct to four decimal places, is
Integration on GDC
The percentage error in the use of the mid-ordinate rule in question 5 is
(a) -0.65% (b) -0.66%
(c) 1.30% (d) 1.28%

17. Multi guess worksheet

18. Bilborough College Maths - core 3 the mid ordinate rule (Adrian)
26/04/2017
SUMMARY
where n is the number of strips.
The width, h, of each strip is given by
( but should be checked on a sketch )
The mid-ordinate law for estimating an area is
The accuracy can be improved by increasing n.
The number of ordinates is the same as the number of strips.
The 1st x-value is at the mid-point of the width of the 1st rectangle:

19. Bilborough College Maths - core 3 the mid ordinate rule (Adrian)
26/04/2017
e.g.1 Use 4 strips with the mid-ordinate rule to estimate the value of
Give the answer to 4 d.p.
Solution:
We need 4 y-values so we set out the calculation in a table as for the Trapezium rule.

20. 1 2
So, a b
N.B.

21. The following sketches show sample rectangles where the mid-ordinate rule under- and over estimates the area.
Underestimates
( concave upwards )
Overestimates
( concave downwards )