Education Using PowerPoint 22/04/2019 ISA Glossary of Terms Use this PowerPoint to help you explain the AQA Glossary of Terms in preparation for an ISA for the 2011 course. W Richards Education Using PowerPoint

Variables Variables can be described in a number of ways: 22/04/2019 Variables can be described in a number of ways: 1) Categoric – categoric variables have values that are labels, e.g. eye colour 2) Continuous – continuous variables have a numerical value, e.g. the number of pets you have or your height 3) Control – a control variable is one that could affect the outcome of the experiment but you keep it the same 4) Independent – the independent variable is the one that you will change during your experiment 5) Dependent – the dependent variable is the one that will be measured after changing the independent variable

A Hypothesis and a Prediction 22/04/2019 Put simply, a prediction “predicts” the future whereas a hypothesis is a proposal designed to explain some observations. For example, consider an experiment on acid reacting with marble: I think that a stronger acid will cause the marble to react quicker. Here’s my data. I think that this data shows that there is a relationship between the strength of the acid and the rate of reaction. Which one is a prediction and which one is a hypothesis?

Validity, Fair Tests and Evidence 22/04/2019 For an experiment to be “valid” it must be a fair test, e.g: I’m investigating how quickly acid reacts with marble chips. I want to know if the concentration of the acid affects the reaction rate. Here are my results: Concentration of acid Temperature reaction happened at/OC Time taken for reaction to finish/s Low 20 30 High 50 100 Clearly, the stronger the acid, the quicker the reaction. Was this experiment valid? Was it a fair test? Can this data be classed as “evidence”?

Data 22/04/2019 Here are my results. I think I’ll draw a graph of them as this is “quantitative data”, e.g. the number of people who have different hair colour. I’ve also got some results but mine are descriptive or written in words – this is “qualitative data”, e.g. my hair colour.

I want to use this big tube as a thermometer. How could I do it? Calibration 22/04/2019 I want to use this big tube as a thermometer. How could I do it? Step 1: Mark where a liquid would be at a known value, e.g. 100OC Step 2: Mark where the liquid would be at a second known value, e.g. 0OC Step 3: Mark on a scale by dividing the length by 100 sections – each section represents 1OC. Now it is calibrated!

Calibration 22/04/2019 Here’s another example of using a known quantity to calibrate something:

Time taken to complete 1 swing/s Resolution 22/04/2019 You have a choice of two thermometers: What is the resolution of each thermometer? What is the resolution of the stopwatch used in the experiment below? Length of pendulum/cm Time taken to complete 1 swing/s 10 0.63 20 0.90 30 1.10 40 1.27 50 1.42

True Value and Accuracy 22/04/2019 The “true value” is the value that would be obtained with ideal measurements. A measurement is judged to be “accurate” if it close to that value. For example, what does this thermometer read? I reckon it’s 22OC I reckon it’s 24OC My measurement was the most accurate as it was closest to the true value! I reckon it’s 26OC

Uncertainty Consider the same thermometer readings again: 22/04/2019 Consider the same thermometer readings again: Is it 22OC, 24OC or 26OC? “Uncertainty” means “the interval within which the true value would lie” with a given level of probability, e.g. “the temperature is 24OC ± 2OC, to within a probability of 95%”.

Unlucky. I’m actually 175cm tall. Measurement Error 22/04/2019 A “measurement error” is defined as “the difference between a measured value and the true value”, e.g: Here’s my friend. I’ve just measured him with a metre ruler and I think he’s 170cm tall. Unlucky. I’m actually 175cm tall. What is the difference between these results and what is the percentage difference between them?

Time taken for magnesium to react/s Precision 22/04/2019 “Precise measurements” are measurements that show very little spread around the mean average value. Which of the following two sets of data are the most precise? Conc. of acid Time taken for magnesium to react/s Average time/s Attempt 1 Attempt 2 Attempt 3 Low 50 52 54 High 20 24 22 Notice that precision depends only on random errors – it gives no indication of how close results are to the true value!

Anomalous Results 22/04/2019 Here’s a graph that shows us how the temperature of hot water varies when it is left in a cold room. What would you do with these results? Temperature of water/OC x x x x x x x x Time/mins

Random errors 22/04/2019 Random errors can occur with any experiment but some experiments can have more random errors than others. For example, here are two experiments: Hooke’s law, where different forces are hung on a spring and the extension is measured. Choice chambers, where woodlice are “invited” to choose their living conditions. Which one of these experiments would probably have the most random errors and what would do about it?

Zero Errors 22/04/2019 What’s wrong with this balance reading?

Notice that a zero error usually results in a systematic uncertainty. Systematic Error 22/04/2019 A systematic error is one where the measurement differs from the true value by a consistent amount each time, e.g: Notice that a zero error usually results in a systematic uncertainty.

Systematic Errors on a Graph 22/04/2019 x Resistance of wire/Ω According to this graph, a wire that’s zero cm long has some resistance, which can’t be right. What went wrong? Length of wire/cm

Ranges and Intervals 22/04/2019 “Range” represents the range from the lowest and highest values for a variable. “Interval” represents the quantity between readings. For example, consider the following experiment: Length of pendulum/cm Time taken to complete 1 swing/s 10 0.63 20 0.90 30 1.10 40 1.27 50 1.42 What is the range and interval of these lengths?

“Repeatable” and “Reproducible” 22/04/2019 Here are my results sir. I did the experiment 3 times using the same method and equipment and got the same results each time. Here are my results sir. I followed the same method as my friend and got the same results. This data is judged to be “reliable” as it stayed the same after several different measurements. Q. Which experiment shows “repeatable” data and which one shows “reproducible” data?

Drawing a conclusion 22/04/2019 Here’s a simple experiment where the rate of cooling is investigated when hot water is covered in different numbers of layers:

Writing a valid conclusion 22/04/2019 A bad conclusion: A simple statement saying what your results show. A good conclusion: A detailed statement showing what your results show AND a description of other patterns, e.g. what happens between 4 and 5 layers of insulation? Why did this happen? Is your graph a straight line or a curve? Do your results show proportionality? If the experiment was designed well, the data is valid (i.e. from a fair test) and the conclusion accurately explains what the data shows then we call the conclusion “valid”

Q. What would be a good conclusion for these results? Drawing a conclusion 22/04/2019 Temperature of water/OC x x 3 layers x x x x x x x No layers Q. What would be a good conclusion for these results? Time/mins

Temperature after ___ mins/OC Anomalous Results 22/04/2019 Where are the two anomalous results and what caused them? No. of layers Initial temp/ OC Temperature after ___ mins/OC Temp change/ 1 2 3 4 5 6 7 8 9 10 70 68 65 62 59 57 55 53 50 47 44 26 66 63 75 60 51 20 69 67 61 58 56 54 52 28 13 71 12

Calculating mean values 22/04/2019 To calculate the mean value of a range of results, follow the following steps: Add the numbers up Press the equals button Divide by how many numbers you added For example, calculate the mean average of the following: 8, 10, 12 104, 106, 88 34, 56, 40

Sketch Graphs 22/04/2019 A sketch graph is one that “sketches” the relationship between two different variables without plotting any points. For example: Temperature of water/OC Time/mins Sketch a graph to show how the temperature of a hot cup of coffee will change over time: Sketch a graph to show how the rate of CO2 produced during photosynthesis varies with temperature:

Which graph? Line graphs Bar charts 22/04/2019 Line graphs Bar charts Used for “continuous” variables, e.g. height, weight, length, temperature, time etc Used for “discrete” or “categoric” variables, e.g. number of people, eye colour etc

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