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CHAPTER 1 – THE SCIENCE OF BIOLOGY What Is Science? (A) Organized way of using evidence to learn about the natural world. (B) Collection of knowledge that.

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Presentation on theme: "CHAPTER 1 – THE SCIENCE OF BIOLOGY What Is Science? (A) Organized way of using evidence to learn about the natural world. (B) Collection of knowledge that."— Presentation transcript:

1 CHAPTER 1 – THE SCIENCE OF BIOLOGY What Is Science? (A) Organized way of using evidence to learn about the natural world. (B) Collection of knowledge that scientists have built up after years of using this process.

2 What Science Is and Is Not –What are the goals of science? 1)provide natural explanations for events in the natural world 2)understand patterns in nature 3)to make useful predictions about natural events.

3 1. Inference – logical interpretation based on prior knowledge or experience. Step 2 – Hypothesis (Prediction) 1. Proposed explanation for a set of observations. 2. Based on prior knowledge or imagination. 3. Represents a possible solution to a problem. 2. Inferences can lead to a hypothesis, or a scientific explanation for a set of observations that can be tested in ways that support or reject it. Step 3 – Test Hypothesis – with a controlled experiment. Steps in the Scientific Method: Step 1 – Observations – gathering data (information) This can be Quantitative – expressed in #’s. Or Qualitative – expressed other than #’s.

4 1. When doing an experiment… a. Test one variable at a time!!!! (Variable – is something that causes the changes observed in an experiment) b. Have a controlled variable –the one that you don’t change c.Independent Variable– what you are changing (manipulating) d.Dependent Variable – the response to the change, or outcome Step 4 - Recording & Organizing Data – the more data the better! 1. Tables; Graphs; Averages etc. Step 5 – Draw a Conclusion: use experimental data to support, refute, or revise the hypothesis 2. Can also be qualitative and/or quantitative.

5 Drawing Conclusions –New data may indicate that the researchers have the right general idea but are wrong about a few particulars. In that case, the original hypothesis is reevaluated and revised; new predictions are made, and new experiments are designed. –Hypotheses may have to be revised and experiments redone several times before a final hypothesis is supported and conclusions can be drawn.

6 Example of Famous Experiments: Redi’s Experiment on Spontaneous Generation Observations: Observations: Flies land on meat that is left uncovered. Later, maggots appear on the meat. Hypothesis: Hypothesis: Flies produce maggots. Procedure Controlled Variables: Controlled Variables: jars, type of meat, location, temperature, time. Manipulated Variable: lid Uncovered jarsCovered jars Responding Variable: Responding Variable: Whether maggots appear Maggots appearNo maggots appear Several days pass Conclusion: Maggots form only when flies come in contact with meat. Spontaneous Generation of maggots did not occur.

7 Gravy is boiled Flask is open Gravy is teeming with organisms Flask is sealed Gravy is free of organisms. Spallanzani’s Experiment This experiment showed that microorganisms will not grow in boiled and sealed gravy that is left open to the air. Questions: 1. What variables were controlled in this experiment? 2. What variable is the experimental (manipulated) variable?

8 Louis Pasteur’s Experiment Broth is boiled Broth is free of organisms for a year. Curved neck is removed Broth is teeming with microorganisms. Questions: 1. Why did microorganisms not grow in the flask before the neck was removed? 2. Why did the microorganisms grow after the neck was removed?

9 Step 7 – Theories: well tested explanations that unifies a broad range of observations. 1. Example: Theory of Evolution. Law – Generalizes a body of observations. It explains things, but does not describe them. 1. Example: Newton’s Laws, Principle – a concept based on scientific laws (rules assumed to be true) 1. Example: Bernoulli’s Principle (explains aerodynamics) Step 6 – Peer Review: Scientists share their work with others. Scientists also try to duplicate the results to confirm that the experiment was successful

10 What makes a good scientist? –share scientific attitudes, or habits of mind, that lead them to exploration and discovery. –Are curious about what goes on around them –are skeptics, which means that they question existing ideas and hypotheses, and they refuse to accept explanations without evidence. –Are open-minded, meaning that they are willing to accept different ideas that may not agree with their hypothesis. –Are creative

11 The Role of Technology –Technology, science, and society are closely linked.

12 1-3 Studying Life (A) Biology – Study of living organisms; study of the living world. (B) Biosphere – The part of the Earth that contains all ecosystems (C) Pg 21 record the levels of organization

13 Characteristics of Living Things. 1. Made of units called cells. a. Unicellular – one-celled. b. Multicellular – many celled. 2.Reproduction  Asexual – creates offspring by iteself, 1 parent  Sexual – creates offspring by sharing DNA, 2 parents 3. Based on a universal genetic code. (DNA)

14 4. Growth & development. 5.Obtain & use materials and energy. –The combination of chemical reactions through which an organism builds up or breaks down materials is called metabolism. 6. Respond to their environment. (Respond to a stimuli) 7.Maintain a stable internal environment. (Homeostasis) 8.Taken as a group, living things change over time. (Evolution) –Evidence of this shared history is found in all aspects of living and fossil organisms, from physical features to structures of proteins to sequences of information in DNA.

15 Scientific Measurement: Common Metric Units

16 Science as a Way of Knowing –The job of science is to use observations, questions, and experiments to explain the natural world in terms of natural forces and events. –Successful scientific research reveals rules and patterns that can explain and predict at least some events in nature. –

17 Different Types of Microscopes Simple Microscopes – magnifying glass (use 1 lens) Compound Microscopes – use more than 1 lens (ex. Light microscope that we use in class) Electron Microscopes (SEM and TEM) –Large, and expensive

18 Comparison of SEM and TEM SEMTEM

19 Laboratory Techniques Cell Culture –A single cell is grown on a Petri dish, reproduces, creating a group of cells –Can be used to test cell responses Cell Fractionation –Cells are put into a blender and mixed –Then they are placed in a centrifuge –The centrifuge spins the cell parts and liquid –The parts separate out by their density


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