1. Biology is the study of living things. It is an important science for understanding food, pets, plants, disease, heredity, and more. Many careers are in biology.
2. Scientists make observations to gather facts and data about the natural world. They develop hypotheses and conduct controlled experiments to test their hypotheses.
3. Laws and theories are developed from repeated scientific study. Laws describe what happens in nature while theories are the best explanations currently available to describe why things occur.
13
The Scien Þc Method
Lab 1
14
Lab 1 : Scien Þc Method
15
Introduc on
What is science? You have likely taken several classes throughout your career as a student, and know
that it is more than just chapters in a book. Science is a process that uses evidence to understand the
history of the natural world and how it works. It is constantly changing as we understand more about
the natural world, and con nues to advance the understanding of the universe. Science begins with ob-
serva ons that can be measured in some way so that data can be collected in a useful manner by follow-
ing the scien Þc method.
Have you ever wondered why the sky is blue or why a plant grows toward a window? If so, you have al-
ready taken the Þrst step down the road of discovery. No ma er what the ques on, the scien Þc meth-
od can help Þnd an answer (or more than one answer!). Following the scien Þc method helps to insure
scien sts can minimize bias when tes ng a theory. It will help you to collect and organize informa on in
a useful way, looking for connec ons and pa erns in the data. As an experimenter, you should use the
scien Þc method as you conduct the experiments throughout this manual.
Concepts to explore:
Testable observa ons
Hypothesis
Null hypothesis
Experimental approach
Variables
Controls
Data collec on
Analysis
Figure 1: The process of the scien Þc method
Lab 1 : Scien Þc Method
16
The scien Þc method process begins with the formula on of a
hypothesis – a statement of what the experimenter thinks will
happen in certain situa ons. A hypothesis is an educated guess –
a proposed explana on for an event based on observa on(s). A
null hypothesis is a testable statement, that if proven true means
the hypothesis was incorrect. Both statements must be testable,
but only one can be true. Hypotheses are typically wri en in an if/
then format, such as:
Hypothesis:
If nutrients are added to soil, then plants grown in it will
grow faster than plants without added nutrients in the soil.
Null hypothesis:
If nutrients are added to the soil, then the
plants will grow the same as plants in soil
without added nutrients.
There are o en many ways to test a hypothesis.
When designing an experiment to test a hypothesis
there are three rules to follow:
1. The experiment must be replicable.
2. Only test one variable at a me.
3. Always include a control.
Variables are deÞned and measurable components of an experiment. Controlling the variables in an
experiment allows the scien st to quan tate the changes that occur so that results can be measured
and conclusions drawn. There are three types of variables:
Independent Variable: The variable that the scien st changes to a predetermined value
in order to test the hypothesis. There can only be one independent variable in each
experiment in order to pinpoint the change that a ects the outcome of the exper.
Exercise 1: Data Interpretation
Dissolved oxygen is oxygen that is trapped in a fluid, such as water. Since many living organism requires oxygen to survive, it is a necessary component of water systems such as streams, lakes and rivers in order to support aquatic life. The dissolved oxygen is measured in units of ppm (parts per million). Examine the data in Table 4 showing the amount of dissolved oxygen present and the number of fish observed in the body of water the sample was taken from; finally, answer the questions below.
Post-Lab Questions
1. What patterns do you observe based on the information in Table 4?
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21. Logical method of problem solving No one set method Basic Steps 1. PROBLEM 2. RESEARCH 3. HYPOTHESIS 4. EXPERIMENT 5. CONCLUSION Subject to verification 1-3 THE SCIENTIFIC METHOD
22. Variables are factors that can affect the outcome of an experiment 1-4 CONTROLED EXPERIMENTS EXAMPLE: Plant Growth
27. Tells if the factor being tested actually affected the outcome of the experimentGroups must be large for valid results 1. Excludes individual differences 2. All variables are controlled
28. LAWS Statements about events that always occur in nature Sir Isaac Newton – The Law of Gravity Does not explain why THEORIES Best explanation science has to offer of why things occur in nature Have held up over long periods of time Sir Charles Darwin – Theory of Evolution Laws and Theories Subject to revisions Can be used to make predictions 1-5 LAWS and THEORIES
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