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Cluster Three: The Natural World (10 credits)

Cluster Three Coordinator:  Dr. Scott Paulson

Description:

Scientific investigations into the natural world use analytical methods to evaluate evidence, build and test models based on that evidence, and develop theories. Mathematical studies of form and pattern can create a language that assists in these investigations. Courses in this cluster provide students with the opportunity to develop problem-solving skills in science and mathematics at the college level. Students will be introduced to a substantial body of scientific facts, concepts, models, and theories and will also gain experience in using basic mathematics to obtain knowledge about the natural world. The cluster is cross disciplinary, thereby demonstrating boundaries and connections among mathematics, the sciences and other aspects of culture.

Requirements:

Typically students begin Cluster Three during their first year and should complete it by the end of their sophomore year. Individual courses satisfy requirements in a number of major and professional programs. Students are encouraged to select appropriate courses in Cluster Three on the basis of their backgrounds, interests and educational objectives.

If you are a senior that needs to enroll in a cluster three class to graduate this semester, please e-mail Scott Paulson (paulsosa@jmu.edu). If you need an override for a Cluster Three IdLS course, please contact Ms. Donna Garber in the IdLS office.

Cluster Three consists of 10 credits distributed across four areas representing four different aspects of scientific knowledge. Students must take one class that fulfills each of the four areas. Quantitative Reasoning consists of mathematics courses, and Physical Principles and Natural Systems consist of science courses. The groups may be taken in any order, except for courses denoted by an asterisk (*), which have a mathematics and/or science prerequisite or corequisite. In addition, students are required to have at least one lab experience. Certain courses are designed for future teachers, and enrollment in these courses may be limited to IdLS majors; these courses are indicated with a double asterisk (**)

Quantitative Reasoning:

Students build mathematical models of systems and learn to understand, interpret and analyze data that is numerical in nature.

  • ISAT 151. Analytic Methods I: Topics in Applied Calculus for ISAT
  • ISAT 251. Analytic Methods III: Topics in Statistics for ISAT 
  • MATH 103. The Nature of Mathematics
  • MATH 105. Qualitative Literacy and Reasoning
  • MATH 107. Fundamentals of Mathematics I **
  • MATH 205. Introductory Calculus I
  • MATH 220. Elementary Statistics
  • MATH 231. Calculus with Functions I
  • MATH 235. Calculus I

Physical Principles

In this area, students study underlying principles of nature. These principles are applied to build models, often quantitative in nature, that explore and explain a variety of natural phenomena.

  • ASTR 120: The Solar System
  • ASTR 121: Stars, Galaxies, and Cosmology
  • CHEM 120. Concepts of Chemistry
  • CHEM 131. General Chemistry I (CHEM 131L required lab corequisite)
  • ISAT 100. Issues in Energy and the Environment
  • ISAT 112. Environmental Issues in Science and Technology (includes lab)
  • ISCI 101. Physics, Chemistry and the Human Experience*
  • ISCI 172. Physical Science for Teachers **
  • PHYS 121. The Physical Nature of Light and Sound (includes lab)
  • PHYS 140. College Physics I (PHYS 140L required lab corequisite)*
  • PHYS 215. Energy and the Environment*
  • PHYS 240. University Physics I*

Natural Systems

Students study the behavior of earth and life systems. Students will investigate interactions within these systems, between the systems and their environment, and with society.

  • ANTH 196. Biological Anthropology
  • BIO 103. Contemporary Biology
  • BIO 140. Foundations of Biology
  • BIO 222: Interdisciplinary Biology for Engineering and Physical Sciences. (3, 0)
  • BIO 270. Human Physiology (includes lab)*
  • GEOL 102. Environment: Earth
  • GEOL 110. Physical Geology (includes lab)
  • GEOL 115. Earth Systems, Cycles and Human Impact*
  • GEOL 200. Evolutionary Systems (includes lab)
  • GEOL 210. Applied Physical Geography*
  • GEOL 211. Introduction to Oceanography
  • ISAT 113. Issues in Science and Technology: Living Systems
  • ISCI 171. Earth and Planetary Science for Teachers**
  • PSYC 122. The Science of Vision and Audition

Lab Experience

This area emphasizes the observational and experimental nature of science. Through hands-on experiential learning, students will make observations and use them to test predicitons and hypotheses.

  • Physical Principles course with a lab
  • Natural Systems course with a lab
  • ISCI 104. Scientific Perspectives
  • ISCI 173. Life and Environmental Science of Teachers**

Learning Objectives:

After completing Cluster Three: The Natural World, students should be able to meet the following objectives:

  • Describe the methods of inquiry that lead to mathematical truth and scientific knowledge and be able to distinguish science from pseudoscience.
  • Use theories and models as unifying principles that help us understand natural phenomena and make predictions.
  • Recognize the interdependence of applied research, basic research, and technology, and how they affect society.
  • Illustrate the interdependence between developments in science, social and ethical issues.
  • Use graphical, symbolic, and numerical methods to analyze, organize, and interpret natural phenomena.
  • Discriminate between association and causation, and identify the types of evidence used to establish causation.
  • Formulate hypotheses, identify relevant variables, and design experiments to test hypotheses.
  • Evaluate the credibility, use and misuse of scientific and mathematical information in scientific developments and public-policy issues.