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The Nature of Science The Science of Biology. Chapter 1 Outline 1-1: What is Science? What Science Is and Is Not Thinking Like a Scientist Explaining.

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Presentation on theme: "The Nature of Science The Science of Biology. Chapter 1 Outline 1-1: What is Science? What Science Is and Is Not Thinking Like a Scientist Explaining."— Presentation transcript:

1 The Nature of Science The Science of Biology

2 Chapter 1 Outline 1-1: What is Science? What Science Is and Is Not Thinking Like a Scientist Explaining and Interpreting Evidence Science as a Way of Knowing Science and Human Values 1-2: How Scientists Work Designing an Experiment Publishing and Repeating Investigations When Experiments are Not Possible How a Theory Develops

3 Chapter 1 Outline 1-3: Studying Life Characteristics of Living Things Branches of Biology Biology in Everyday Life 1-4: Tools and Procedures A Common Measurement System Analyzing Biological Data Microscopes Laboratory Techniques Working Safely in Biology

4 What Science Is and Is Not In the Science Classroom, the objective is to take problems and approach them scientifically. The Goal of Science is to investigate and understand the natural world, to explain events in the natural world, and to use those explanations to make useful predictions. The three features that makes science a unique human endeavor: Science deals only with the natural world Scientist collect and organize information looking carefully for patterns and connections between events Scientists propose explanations that can be tested.

5 What Science Is and Is Not Science is an organized way of using evidence to learn about the natural world. Science is also the study of nature in an attempt to understand it and to form an organized body of knowledge that has predictive power and application in society.

6 Thinking like a Scientist Thinking like a scientist involve looking at a problem and gathering information to help solve the problem. Scientific thinking usually starts with observations. The process of gathering information about events or processes in a careful, orderly way. The observations are usually collected through the five senses and is called data.

7 Thinking Like a Scientist There are two main Categories of Data Quantitative Data Data expresses as numbers, obtained by counting or measuring Examples: Amounts, Weights, Numbers, etc. Qualitative Data Data that is descriptive and involve characteristics that cannot be counted. Examples: Color, Feelings, etc.

8 Thinking like a Scientist Once scientists have collected enough data, an inference can be made. Inference – a logical interpretation based on prior knowledge or experience.

9 Explaining and Interpreting Evidence After enough data has been collected and inferences made, scientist can now propose one or more hypotheses. Hypothesis – a proposed scientific explanation for a set of observations. A hypothesis must also have the ability to be tested. Some hypothesis are tested by: A Controlled Experiment Gathering more Data

10 Explaining and Interpreting Evidence Scientists do not work alone Many Scientists can come together to collaborate in teams to work on complex questions. They do this in order to validate conclusions and come to a general consensus on a hypothesis.

11 Science as a Way of Knowing Science is an ongoing process that involves asking questions, observing, making inferences, and testing hypothesis to explain a natural phenomena. Scientific understanding is always changing. As technology and research techniques get more sophisticated, scientific theories and principles can evolve. Example: Human Genome Project

12 Science as a Way of Knowing What Science cannot do? Science cannot tell you what to believe It cannot help you decide what is beautiful It cannot decide what is good or evil It cannot be used to explain the supernatural Science is used to explain NATURAL phenomena Example: Galileo and Heliocentrism

13 Science and Human Values Along with scientific facts and concepts, the application of science is technology. As science progresses, humans use technology to create a better standard of life. Examples of how science has improved life: Sanitation Health Care Agriculture and Farming

14 Science and Human Values Science and Technology can also cause heated debates: Genetics Stem Cell Research Cloning

15 Designing and Experiment To Model How Scientist Work, we will discuss an early experiment, which tested the hypothesis of spontaneous generation. Spontaneous Generation – The hypothesis that states life can arise from nonlife. The Observation: Some organisms seem “to be born” from nonliving things Maggots from meat Mice from Grain Beetles from Cow Dung

16 Designing an Experiment Forming a Hypothesis In 1668, Francesco Redi, an Italian Physician, proposed a hypothesis against Spontaneous Generation He proposed that it was not the meat that was producing the maggots, but the flies that landed on the meat that produced the maggots. In order to test his hypothesis, he set up a controlled experiment.

17 Designing an Experiment Setting up a Controlled Experiment A controlled experiment is used to test hypotheses. In experiments, there are factors that can be changed called variables Examples: Equipment Used, type of material, amount of material, temperature, light, and time. Whenever possible, a hypothesis should be tested by an experiment in which only one variable is changed at a time. All other variables should be kept unchanged or controlled.

18 Designing an Experiment A controlled experiment contains: A Manipulated Variable The variable that is deliberately changed A Responding Variable The variable that is observed and that changes in response to the manipulated variable

19 Redi’s Controlled Experiment

20 Designing an Experiment Recording and Analyzing Results In a controlled experiment, data, specifically quantitative data, is important. Drawing a Conclusion After all the data has been accumulated and analyze, a conclusion can be made about the experiment. It can either support or refute a hypothesis.

21 Publishing and Repeating Investigations Just because an experiment yielded the desired results one time does not mean it will produce the same result a second time. Therefore, after scientists publish their results, other scientists tests the findings to verify the results. Redi’s Experiment were tested by Needham, Spallanzani, and Louis Pasteur.

22 Spallanzani’s Experiment

23 Louis Pasteur’s Experiment In 1864, Louis Pasteur decided that he wanted to end the argument on spontaneous generation. He developed a special flask in which he boiled nutrient broth, thus killing any microorganism. Since the flask had a special neck that did not allow the broth to be exposed to dust in the air, no microorganisms grew. A year later, he broke the neck, and within an evening, the broth was teeming with microorganisms.

24 Louis Pasteur’s Experiment

25 How a Theory Develops A Particular hypothesis may become so well supported that scientists consider it a theory In science, the word theory applies to a well- tested explanation that unifies a broad range of observations Theory help explain a natural phenomena. Examples: Evolution, Plate Tectonics and the Kangaroo. Theories are not absolute, they can be changed.

26 Characteristics of Living Things Biology is the study of life. Biology is the science that seeks to understand the living world. Living things share the following characteristics: Living things are cellular Living things reproduce Living things are based on a universal genetic code Living things Grow and Develop Living things obtain and use materials and energy. Living things respond to their environment Living things maintain a stable internal environment Taken as a group, living things change over time.

27 Characteristics of Living Things Made Up of Cells A cell is a collection of living matter enclosed by a barrier that separates the cell from its surroundings. Unicellular = One Celled Organism Multicellular = Many Celled Organism Learn more in Chapter 7

28 Characteristics of Living Things Reproduction All organism produce new organisms through the process of reproduction Two types: Asexual Reproduction Single Parent Clones Bacteria and most protists Sexual Reproduction Two Parents New organisms is a combination of the parents. More Complex Organisms (Animals and Plants)

29 Asexual Reproduction

30 Characteristics of Living Things Based on a Genetic Code All Living things inherit traits from their parents. DNA is the genetic material used to pass on traits. Growth and Development All living things grow during their lifetime Unicellular Organisms grow in size Multicellular Organisms multiply and develop. Some organisms have a very complex development

31 Characteristics of Living Things Need for Materials and Energy A living organism must be able to obtain energy from the environment. Some organisms create their own food while others obtain them from other sources. Either way, an organism must be able to metabolize that food into cellular energy. Metabolism – the combination of chemical reactions through which an organism builds up or breaks down materials as it carries out its life processes.

32 Characteristics of Living Things Response to the Environment Organisms detect and respond to stimuli from the environment Stimulus – a signal to which an organism responds. Two types: External Stimuli Internal Stimuli

33 Characteristics of Living Things Maintaining Internal Balance In order to survive, organisms must be able to keep their internal environment normal. Homeostasis – the process by which organisms maintain their internal environment. Usually through the use of two feedback mechanisms Positive Feedback Mechanisms Giving Birth Negative Feedback Mechanisms Temperature Control

34 Branches of Biology Some of the levels at which life can be studied include molecules, cells, organisms, populations of a single kind of organism, communities of different organisms in an area, and the biosphere. At all these levels, smaller living systems are found within larger systems.

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