1. 1-1 What is Science? - organized way of using evidence to learn about the natural world

2. Why do we study science? 1. investigate and understand nature 2. explain events that occur in nature 3. to make predictions based on those explanations

3. How do we gain evidence to support our predictions? 1. Observation- use one or more of our senses 2. Collect data - information gathered from observation

4. Observations can be of 2 types: 1.quantitative -involves numbers Ex. measurement or counting objects 2.qualitative -characteristics not easily measured Ex. color or texture **data (evidence) must be interpreted (analyzed) involves the formation of an inference Inference - a logical interpretation based on prior knowledge or experience

5. Explanation of evidence Form a hypothesis - a possible explanation for what was observed - can be tested through a controlled experiment Scientific Inquiry - a collection of data to obtain a better understanding of nature - scientists make recommendations based on their findings

6. 1-2 How scientists work to test their hypothesis 1668 Francesco Redi's experiment on spontaneous generation 1. State the problem: How do living things come to be? 2. Form a hypothesis: Maggots arise from rotting meat (spontaneous generation)

7. 3.Set up a controlled experiment: a. variables - factors that can change; time, temp, etc. - one variable is changed at a time (manipulative value or independent variable) b. control - the unchanged variable c. responding variable - what is observed and changes in response to the manipulative variable (dependent variable)

8. 4 Observation - flies left on uncovered meat; later maggots appeared 5. Hypothesis - flies produce the maggots 6. Prediction - keeping flies away from meat will prevent the appearance of maggots 7. Conclusion - maggots formed only when flies came in contact with meat; therefore, no spontaneous generation

10. Redi's test was repeated by: 1. John Needham (l700 's) - Needham experiment lent support to spontaneous generation

11. 2. Lazarro Spallanzani 3. Louis Pasteur (1800)

12. Development of a theory Numerous investigations support a particular hypothesis, therefore, a theory is a well-tested explanation that comes from many observations Theories allow for accurate predictions about new situations Theories may be revised or replaced by new evidence

13. 1-3 Characteristics of living things 1.Made up of cells -smallest unit of life -they can: grow respond reproduce -complex and highly organized unicellular - one cell; amoeba, paramecium

14. amoeba

15. multicellular - many cells; plants and animals -cells come in a variety of sizes and shapes, each specialized to perform a special function

17. 2. Reproduce - production of new organisms - two kinds: a. asexual - single parent Ex. fission and budding b. sexual - two cells (sex) from different parents fuse

18. Hydra – asexual reproduction (budding)

19. 3.Uniform genetic code - offspring resemble parents - flies make flies - dogs make dogs, etc. - DNA (deoxyribonucleic acid) contains the genetic codes that determines inherited traits 4.Grow and develop - distinctive life cycle and pattern of growth with changes that occur during life span - cells grow in size and specialize (differentiate)

20. 5.Obtain and use materials and energy - occurs through metabolic processes that build (synthesis or anabolism) and break down (catabolism); together these are metabolism 6.Respond to the environment - changes in light and temperature cause organisms to respond in their own way

21. 7.Maintain an internal balance (homeostasis) - always threatened by environmental changes - lack of homeostasis leads to illness and possibly death. 8.Change over time (evolution) - change not apparent for thousands to millions of years - maintains survival of an organism in a world that is always changing

22. Branches of Biology Biology is organized into branches or divisions: Zoology - study of animals Botany - study of plants Ethology - study of animal behavior Paleontology - study of life from long ago

23. - Life is studied at different levels of organization - Levels differ in size and complexity Molecules  cells  groups of cells (tissues)  organism  population  community  ecosystem  biosphere See Fig. 1-21 pg 21

25. 1-4 Tools and Procedures used in Biology A.Common Measurement System - metric: decimal system of measurement; each unit is a multiple of 10 Ex. 1.5, 1.51, 1.512 B.Analyzing Biological Data - to find out whether certain information has changed or stayed the same - recorded in a table from which a graph is made - today, computers are used to make sense of the data

27. C.Microscopes - produce magnified images of structures that cannot be seen with the naked eye - used to test cell responses under controlled conditions - show cell to cell interactions - used to select specific cells for study

28. Two types: 1.light microscope - magnifies images by focusing visible light rays - magnifies 1000 times - light passes through the specimen and then through 2 lenses - chemical stains (dyes) used to show specific structures

29. Compound light microscope

30. 2.electron microscope - magnifies images by focusing beams of electrons on specimen - objects usually smaller than 0.2 micrometers - magnifies images 1000 times smaller than those seen under the light microscope Two types: a. transmission electron microscope (TEM) - beam of electrons passes through the specimen - good for studying cell interiors

32. Cell organelles

33. b. scanning electron microscope (SEM) - pencil-like beam runs back and forth across the surface; good 3 dimensional image of surface

34. Insect head

35. Disadvantage of EM -specimens are dead and preserved; they are killed by the process 3. Phase Contrast Microscope - enhances contrast of living, unstained cells a. Differential interference contrast b. Phase contrast

36. D. Laboratory Techniques 1. Cell cultures -groups of cells that develop from a single cell -used to test cell responses under controlled conditions -show cell to cell interactions -used to select specific cells for study

37. Cell culture

38. 2. Cell fractionation - separates out different cell parts for study - cells put in blender  broken cell parts added to liquid and placed in tube  centrifuge  cell parts separate out according to density

39. E. Working Safely in Biology -Review lab safety