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GRAPHING IN SCIENCE.

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Presentation on theme: "GRAPHING IN SCIENCE."— Presentation transcript:

1 GRAPHING IN SCIENCE

2 Graphing Guidelines Descriptive title
Label each axis. Include Quantity and Units Choose an appropriate range Maximize your graph area a. Label each axis at regular increments b. Use convenient increments 5. Plot points clearly and accurately. 

3 Variables Independent – The data you know ahead of time, X-AXIS, the variable that is experimentally varied Dependent - – What you are trying to find out, What is observed, Y-AXIS - It’s dependent on the independent variable

4 Dependent Variable Independent Variable

5 Example Place a D for dependent and an I for Independent below the correct variable. Then label the axes on the graphs. 1. Candy and Cavities Candy – Cavities - I D Cavities Candy

6 Example Place a D for dependent and an I for Independent below the correct variable. Then label the axes on the graphs. 2. Grades and Hours of Studying Hours of Study – Grades - I D Grades Hour of Studying

7 Best Fit Line A best fit line shows what you would expect to happen if you gathered more data than you have It’s the one, straight line that is closest to all data points Does not necessarily connect all data points Like an average of all the points

8 Drawing a Best-Fit Line

9 GRAPHING RELATIONSHIPS

10 DIRECT RELATIONSHIP 5 As one variable increases, the other _____________ Line will slant ______ Y 4 Increases 3 Up 2 1 1 2 3 4 5 X

11 DIRECT RELATIONSHIP Examples Human Population versus Pollution
As the population increases, pollution increases

12

13 INDIRECT or INVERSE RELATIONSHIP
5 As one variable increases, the other _____________ Line will slant ______ Y 4 Decreases 3 2 Down 1 1 2 3 4 5 X

14 INDIRECT or INVERSE RELATIONSHIP
Example Elevation versus Air Temperature The higher up you go in the sky, the air temperature is colder (decreases)

15

16 CONSTANT RELATIONSHIP
5 As one variable increases, the other _____________ Line will Y 4 Stays the same 3 2 Go across or up and down 1 1 2 3 4 5 X

17 CONSTANT RELATIONSHIP
EXAMPLE Hours in the day Always stays at 24

18 CYCLIC RELATIONSHIP USED TO PREDICT CHANGE
5 As one variable increases, the other_____________ Line will Y 4 Increases then decreases then increases, etc 3 2 1 Up, down, up, down, etc 1 2 3 4 5 X USED TO PREDICT CHANGE

19 CYCLIC RELATIONSHIP Tides

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