Teachers Notes This sequence of slides is designed

Teacher’s Notes This sequence of slides is designed to introduce, and explain the taking of measurements , including the meaning of variation, range, mean (average)and the difference between accuracy& precision , as explained on page 362 in New Physics for You , 2006 & 2011 editions. Note : When you start this Power. Point if you see a message about “Read-only embedded fonts” then you are recommended to select “Open Read-Only ” as this (i) gives a clearer font for those at the back of the room and (ii) ensures that the text-highlighting of key words is correct. On each slide the key points are revealed step by step, at the click of your mouse (or the press of a key such as the space-bar). Before making the next mouse-click you can ask questions of the class or make statements about what is about to be revealed. This should help students to become clearer about the ideas involved. Naturally it pays to have quick practice-run first. To start the slide-show, press function-key F 5 (or right-click->Full Screen) (to return to ‘normal view’ press the <Esc> key). For more (free) Power. Point presentations, visit www. physics 4 u. co. uk

How Science works: Taking measurements New Physics for You, page 362

Learning Objectives You should learn : • About taking measurements, • The meaning of ‘variation’, ‘range’ and ‘mean (average)’, • The meaning of ‘accuracy’ and ‘precision’.

Taking measurements When you take measurements there may be some variation in the readings. For example: If you time the fall of a paper parachute over a fixed distance, the times may vary slightly. 10. 1 s, 10. 2 s, 9. 9 s, 10. 0 s, 10. 3 s Let’s look at these results more closely.

Taking measurements The results were: 10. 1 s, 10. 2 s, 9. 9 s, 10. 0 s, 10. 3 s What is the Range of these results?

Taking measurements : Range The results were: 10. 1 s, 10. 2 s, 9. 9 s, 10. 0 s, 10. 3 s Find the minimum value and the maximum value Range = from min to max = 9. 9 to 10. 3

Taking measurements : Mean The results were: 10. 1 s, 10. 2 s, 9. 9 s, 10. 0 s, 10. 3 s What is the mean (or average) of these results?

Taking measurements : Mean The results were: 10. 1 s, 10. 2 s, 9. 9 s, 10. 0 s, 10. 3 s Add up the 5 numbers: 10. 1+10. 2+9. 9+10. 0+10. 3 = 50. 5 There are 5 items, so divide by 5: Mean (or average) = = 50. 5 5 = 10. 1 s

Taking measurements : Mean The results were: 10. 1 s, 10. 2 s, 9. 9 s, 10. 0 s, 10. 3 s Why is it a good idea to calculate the mean of your results? Because it improves the reliability of your results. Your results will be more reliable.

Accuracy and Precision

Definitions Accuracy and Precision …sound the same thing… …is there a difference? ?

Definitions : Accuracy In your experiments, you need to consider the accuracy of your measuring instrument. For example: An expensive thermometer is likely to be more accurate than a cheap one. It will give a result nearer to the true value. It is also likely to be more sensitive (with a better resolution). It will respond to smaller changes in temperature.

Definitions : Precision As well as accuracy, precision is also important. Precision is connected to the smallest scale division on the measuring instrument that you are using. For example:

Definitions : Precision For example, using a ruler: A ruler with a millimetre scale will give greater precision than a ruler with a centimetre scale.

Definitions : Precision A precise instrument also gives a consistent reading when it is used repeatedly for the same measurements. For example:

Definitions : Precision For example, 2 balances: A beaker is weighed on A, 3 times: The readings are: 73 g, 77 g, 71 g So the Range is = 71 g – 77 g = 6 g It is then weighed on B, 3 times: The readings are: 75 g, 73 g, 74 g So the Range is = 73 g – 75 g = 2 g Balance B has better precision. Its readings are grouped closer together. A B

Accuracy compared with Precision Suppose you are measuring the length of a wooden bar: 0 true value The length has a true value And we can take measurements of the length, like this: Let’s look at 3 cases…

Accuracy compared with Precision 0 true value 0 0 Precise (grouped) but not accurate. Accurate (the mean) but not precise. Accurate and Precise.

Learning Outcomes You should now understand: • The meaning of ‘variation’ and ‘range’, • How to calculate the mean (or average), and why this improves the reliability of your results, • The difference between ‘accuracy’ and ‘precision’.

For more details, see: Ø New Physics for You, page 362 For more free Power. Points, visit Ø the web-site at www. physics 4 u. co. uk

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