1 / 14

Chapter 1: The Scientific Method

Chapter 1: The Scientific Method. Chemistry = The science that seeks to understand what matter does by studying what atoms and molecules do. This is what the scientific method is made of. Observation = A way of acquiring information about nature.

bryga
Download Presentation

Chapter 1: The Scientific Method

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 1: TheScientific Method Chemistry = The science that seeks to understand what matter does by studying what atoms and molecules do.

  2. This is what the scientific method is made of Observation = A way of acquiring information about nature. • Simple descriptions (qualitative observation) • Number (quantitative observation) Hypothesis = A tentative explanation of your observations • Falsifiable: a test may invalidate your hypothesis Experiments = Tests of hypotheses, laws or theories • Results either Validate (confirm) or Invalidate (deny) your ideas Law = A statement that combines all past observations • Predict future observations • You cannot choose to violate a scientific law Theory = An explanation that extends beyond individual observations to an understanding of the underlying causes for the way nature is or behaves • Models of nature

  3. Observation: anything wrong with this picture?

  4. This is how the scientific method works Experiments Hypothesis Theory Observations Law Experiments Experiments

  5. The (meaningful) beauty of the scientific method Source: http://www.meaningfulbeauty.com/theStory.php http://www.youtube.com/watch?v=5Owji16tge0

  6. Chapter 2: Measurements and Problem Solving Measurement = Quantitative observation • Comparison to an agreed upon standard • Every measurement has a number and a unit Scientists have measured the average global temperature rise over the past century to be 0.6 °C • The number tells you • what multiple of the standard the object measures • the uncertainty in the measurement The unit tells you what standard you are comparing your object to

  7. Scientific Notation is a way of writing large and small numbers The sun’s diameter is 1,392,000,000 m The sun’s diameter is 1.392 x 109 m An atom’s average diameter is 0.000 000 000 3 m An atom’s average diameter is 3 x 10-10 m Large Number = Positive Exponent 1.392 x 109 m Small Number = Negative Exponent 3 x 10-10 m

  8. Writing a number in scientific notation 1,392,000,000 m 1,392,000,000. m Locate the decimal point Move the decimal point until a numberbetween 1 and 10 is obtained Multiply the new number by 10n n is the number of places you moved the decimal point Large number? n is positiveSmall number? n is negative 1.392,000,000. m 1.392 x 10 ? 9 m 1.392 x 10 9 m

  9. Significant Figures Writing Numbers to Reflect Precision • Exact Values • Can be obtained by counting or by definition • Exact values have “unlimited significant figures” • Measurements • Are obtained from instruments • The number of significant figures reflects the instrument precision. All the digits written are known with certainty except the last one, which is an estimate 1.2 grams Certain Estimated

  10. Counting Significant Figures 0.003004500 m Non-zero digits are significant Zeroes in between non-zero digits are significant Zeroes on the right of the last non-zero digit are significant Zeroes on the left of the first non-zero digit are not significant 10 Fingers > Important exception 1: Exact numbers.Numbers that come from Counting Formulas Are not measurements and have an infinite amount of sig. fig. 100 Miles Important exception 2: Ambiguous numbers.A number has an ambiguous amount of sig. fig. if: It is bigger or equal to 10 It has no decimals It ends with a zero

  11. Counting Significant Figures. Examples. How many significant figures are in each of the following numbers? 0.0035 1.080 2371 2.97 × 105 12 items (In a dozen) 100,000

  12. Multiplication and Division with Significant Figures When multiplying or dividing measurements with significant figures, the result has the same number of significant figures as the measurement with the fewest number of significant figures 5.02 × 89,665 × 0.10 = 45.0118 = 45 3 sig. figs.5 sig. figs. 2 sig. figs. 2 sig. figs. 5.892 ÷ 6.10 = 0.96590 = 0.966 4 sig. figs. 3 sig. figs. 3 sig. figs.

  13. Addition and Subtraction with Significant Figures When adding or subtracting measurements with significant figures, the result has the same number of decimal places as the measurement with the fewest number of decimal places 5.74 + 0.823 + 2.651 = 9.214 = 9.21 2 dec. pl. 3 dec. pl. 3 dec. pl. 2 dec. pl. 4.8 - 3.965 = 0.835 = 0.8 1 dec. pl 3 dec. pl. 1 dec. pl.

  14. The Standard Units Scientists have agreed on a set of international standard units for comparing all our measurements called the SI units Système International = International System

More Related