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Tools of Science (Chapter 1). Student Learning Objectives Differentiate between science and non-science (pseudoscience) Apply the scientific method Develop.

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Presentation on theme: "Tools of Science (Chapter 1). Student Learning Objectives Differentiate between science and non-science (pseudoscience) Apply the scientific method Develop."— Presentation transcript:

1 Tools of Science (Chapter 1)

2 Student Learning Objectives Differentiate between science and non-science (pseudoscience) Apply the scientific method Develop some tools for interpreting data

3 What is science?  Science is not simply a collection of facts, but rather an objective process of quantifying what we observe.  The outcomes of science are laws and theories with repeatable results.  Tested  Verified

4

5 Practice What are some examples of science?

6 How is science done? Measurements Observations Experiments  Each scientist must be able to obtain the same results. Observation  Hypothesis/Prediction  Experiment  Theory  Law Example: Example: Setting Sun

7 Practice 1) What is the goal of science? 2) The scientific method is a circular process. Explain 3) What do you think happens if scientists cannot obtain the same results?

8 More Practice 4) Can the scientific method be used to answer all questions? 5) What is pseudoscience?

9 What is the measurement system used in science? Measurements are an objective tool.  Standard units in science utilize the metric system.  Each factor of ten difference results in a single move of the decimal.

10 (Multiply by 10’s) (Divide by 10’s)

11 UnitMultipleConversions kilometer1 km = 10 3 m1 km = 1000 m centimeter1 cm = 10 −2 m100 cm = 1 m millimeter1 mm = 10 −3 m1000 mm = 1 m micron1 mm = 10 −6 m1,000,000 mm = 1 m nanometer1 nm = 10 −9 m

12 Practice 1) How many centimeters are in 1 kilometer? 2)How many nanometers are in 2 centimeters? 3) A length of 5 millimeters would be what number of meters? 4) The average person is 75 kilograms. How many grams is this?

13 3 Dimensions  Three measurements are used to define an object's size in three dimensional space (x, y, z).

14 LengthAreaVolume Length: 1 measurement in one dimension Area: 2 measurements in two different dimensions Volume: 3 measurements in the three different dimensions mm3m3 m2m2

15 Example: Example: Size of a desk  Equations show how quantities are related. F = ma  Equations, and measurements, describe the universe objectively. (quantitatively) Why are equations and units important in science?

16  Units are the description of what was measured. (60)  Conversion factors can be used to change common units to scientific units. Common Measurement Metric Conversion mile1 mile = 1609 meters inch1 inch = 2.54 centimeters pound0.2248 pound = 1 Newton

17 Practice 1)A car on the freeway is traveling at 65 mph. a)How many km/hr is this? b)How many m/s is this? 2) A room measures 10 feet by 12 feet. How many square meters of carpet would be needed for this room?

18 What do graphs show?  Graphs show how data is related and indicate a mathematical formula, the equation. Linear y = x

19 Quadratic y = x 2 Inverse Square y = 1 x 2

20 Practice Use the data to construct and interpret a graph. What is the relationship of the graph? How would you interpret the graph (what does it show)?


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