Science Skills

1. Science Skills

2. Technology • Use of knowledge to solve practical problems. • Science and technology are interdependent • Advances in one lead to advances in the other

3. Models • Make it easier to understand things that might be too difficult to observe directly. • Computer models can show Earth moving • Allows to see things that are too small (atoms) • Allows to see situations that are dangerous or not possible to show. (ocean floor)

4. Models representation of object or system • Can be: • Physical: airplanes, drawings, cell, volcanoes, steam engine, skyscraper • Mathematical: Weather predictions, punnett square • Conceptual: systems of ideas, making comparisons with familiar things to help illustrate or explain

6. Safety • 1. Never start without teacher • 2. Read directions and assign jobs • 3. Fire and Heat /Electrical Precautions • 4. Chemical Precautions • 5. Proper equipment, goggles, gloves • 6. No running, playing, eating, throwing items • 7. Clean Up and disposal

7. International system of units (SI) • Used in many countries to have a uniform scale of measurement.

8. Conversions: Units based on 10

9. Measurement • Volume: Measure of the amount of space an object takes up. For regular shaped solids use the equations L X W X H but for an irregular shaped solid you use a graduated cylinder and measure how much water is displaced. ( cm³ or ml) • 1 ml = 1 cm³ • Mass: The measure of the amount of matter in an object. The tool used is a triple beam balance. (Grams g) • Length: distance between two or more points. (meter m)

10. SI Base Units

11. Derived Units

13. Organizing Data • Data Tables: easier to spot trends in the data that can support or disprove a hypothesis.

14. D R Y M I X • Dependent variable ( outcome) • Responding Variable • Y – axis • Manipulated variable • Independent Variable (test) • X - axis

15. Graphing DO’S • Title • Scale • Label units for independent & dependent variables • Key • Label the X & Y axis

16. Graphs • Line Graph: shows changes that occur in related variables. Data that will change over time and not stay the same. ( Temperature) • The Independent (manipulated) variable is on the x x-axis (horizontal axis ). • The dependent (r) variable is on the y y-axis (vertical axis).

18. Bar Graph • Used to compare a set of measurements, amounts, or changes. Allows us to analyze data quickly.

19. Circle/ Pie Graph • A divided circle that shows how a part or percent of something relates to the whole.

20. Doing Science • Descriptive Research: answers through observations.

21. Observation • Uses your senses: sight, smell , sound, touch, taste • Qualitative: a quality such as color, shape, smell. • Quantitative: a number or quantity such as 20 students are in this class. • Observations lead to inferences (guess).

23. Observations • Systemic observation: observations obtained by following a preplanned method of observation. • Empirical Evidence: Evidence based on observations of experiments rather than theory.

24. Inferences • A guess based on your observations. • Example: The students are tired because they were up late study for their science exam.

25. Hypothesis • An educated guess base on observations. • Use an if ----- then statement. • If independent variable then dependent variable.

26. Experimental Research • To answer questions by testing a hypothesis through the use of scientific method. • Perform a controlled experiment by changing one variable (independent variable) , using a control group, constants, and dependent variable. • Trials: do multiple trials (repeat) to make study reliable.

27. Variables • Independent variable/test variable: The variable manipulated by the experimenter in order to study changes in the outcome variable. • Dependent variable/outcome variable: A factor, usually being measured or observed that responds to, or depends on, another factor (test variable).

28. Multiple Trials • Repetition: Making multiple sets of measurements or observations in a scientific investigation. • Replication: The reproduction of a scientific investigation by another person to ensure accuracy.

29. C & C • Constants: Factors that need to be kept the same in an experiment. Example: amount of sunlight, amount of water, and type of plant. • Control or Control Group: receives normal conditions and used for comparison. Example a group that does not receive a medication to lower high blood pressure.

30. Law vs. Theory • Law: A statement that describes invariable relationships among phenomenon, or scientific problem that can be tested by further investigation. • Theory: A set of statements or principles devised to explain a group of facts or phenomena, especially one that has been repeatedly tested or is widely accepted and can be used to make predictions about natural phenomena.

31. Bias • Scientists may expect certain results which effects the outcome of their experiment. • Avoid by making careful measurements and choosing random samples.