1. Skills for Science
with a focus on Biology

2. What Skills? Selecting information Presenting information Calculations
Conclusions and experimental procedures.

3. Selecting Information

4. Selecting information from different sources.
Written passages
Tables
Diagrams
Graphs
Charts
Keys

5. Written passages
Remember you are not being tested on knowledge in this type of question.
Read the question carefully. It should give you a clue.
Your answer must refer to key words in the question.
Remember to give full answers.
You may need to explain something in the passages. You need to say why something happens or may happen.

6. Tables Read the question carefully.
Be clear what the question is asking you.
Pay attention to the headings in the table.
Remember to use all the information that is available when you answer the question. This means you give as much detail as possible.

7. Charts and graphs Pie Charts
Work out how much each division on chart equals.
Use this to work out which segment of pie chart refers to each factor.
Pie charts
Line graphs
Bar graphs
Histograms

8. Charts and Graphs Line graphs and bar charts.
Calculate the scale on each axis.
i.e what value does each small division equal.
You can write it on the paper ( so you do not need to keep working it out)
At credit level you may need to take information from more than one source. e.g. a table and a graph

9. Presenting Information

10. Ways you may be asked to present information
Table of results
Graph
Chart
Key

11. Completing a table of results
Use the information in the question to make sure your column headings are correct. (don’t change it from the information that is given)
Units must be included in the heading (if appropriate.)

12. Graphs and charts You must use a ruler to draw any lines.
Make sure any line you draw is in the correct place.
Read the question!! Draw the type of graph or chart asked.

13. Graphs and charts
Label axes. Take label from table exactly. Remember to include units.
Choose a suitable scale.
A scale that makes it easy to plot points.
A scale that uses at least half the graph paper.
Scale must go past the last value to be plotted.
Scale must increase in regular divisions.
Plot points carefully.
Use ruler to complete.
Only plot data values given.
Do not plot to zero on x axis unless you have been given a value for that point.

14. Graphs and charts Line Graphs
Put a value for the origin of both axes if not already there. (This is usually 0 but not always)
Join plots with a ruler.
Make sure your line goes through the plots.
Bar Charts/Graphs
Values (usually this will be a word) on x axes should be below the column.
Take care. Use a ruler to draw the bars. Be really careful with the tops of the bars.
Be careful any shading does not go over the lines.
Bar chart has space between the bars.
Histogram : The bars touch and the values will be numbers

15. Calculations
Averages
Ratios
Percentages
Percentage increase/decrease

16. Averages
Total the numbers in the set
Divide by the number in the set.

18. Averages
You may be asked to calculate a daily increase or a weekly increase or a yearly increase.
Find the total increase ( subtract the initial number from the final number then divide by number of days/weeks/years in the study)
Final number – initial number
number in study

19. Ratios Read question carefully Use the same units for all quantities.
Keep the order of the quantities the same as it appears in the question
Answers must be in whole numbers.
You should not be able to divide the numbers any more.

20. Ratios Start by trying to divide both sides by the smallest number.
If that does not produce a whole number look at ending of the figures.
If they all end in 0 divide by 10
If they all end in 0 or 5 divide by 5
If they all end in an even number divide by 2

21. Percentages

22. Percentages Express a number as a percentage.
Express a percentage as a number.
Calculate a percentage change.

23. Express a number as a percentage
Percent means per 100
If you are asked to calculate a percentage you are working out how many there would be per 100.
Eg in a science class there are 6 boys and 14 girls. What percentage of boys are in the class?
6 out of 20 are boys.
Divide 6 by 20
Then multiply by 100
6/20 x100

24. Express a percentage as a number.
To convert a percentage to a number
Take the percentage you want to convert
Divide it by 100
Then multiply be the number.
E.g in a group of 20 girls 16% like chocolate ice cream. How many girls like chocolate ice cream?
Divide 16 by 100
Then multiply by 20 (the total number of girls)
16/100 x 20

25. Calculate a percentage change
First calculate the change
Divide by initial value
Multiply by 100
Eg in 2010, 92 LHS pupils were presented for standard grade biology. In pupils were presented.
Increase = = 23
Divide 23 by original 23/92

26. experimental procedures
Conclusions
and
experimental procedures

27. Experimental procedures
Validity of an investigation.
Control experiments
Reliability of an investigation.
Describing a relationship

28. Validity of an investigation.
Has the result been caused by the factor you are investigating?
You make in investigation valid by setting up a control to prove it was the factor you were investigating which caused the change.

29. Control experiments
A control experiment checks the validity of an experiment.
A control experiment is identical to the original experiment except for the factor you are investigating.
Read the question carefully. Do you need a general definition of a control or do you require a control specific to the investigation in the question?

30. Reliability of an investigation.
Repeating an experiment will make it more reliable because it will minimise the effect of an atypical result.
Be careful that your answer says ‘it increases the reliability….’ or ‘it makes the experiment more reliable’.
It is a good idea to add ‘because it will minimise the effect of an atypical result.’

31. Drawing conclusions Think about the information that is given.
What can be learned from this information.
Look back at the aim to help with wording.

32. Describing a relationship
Usually refers to information in a graph but it could be from a table.
Need to describe relationship between two factors.
Both factors should be in your answer.
Good idea to start ‘As factor x increases factor y…….’
Make sure you look carefully at data provided and describe all phases of the relationship.
You need to support with actual data (including units) to get the full marks.