Course Description:
This is a laboratory oriented program that covers topics in Physics using
an effective problem solving method which utilizes some mathematical concepts.
Mechanics, Wave Theory and Optics are the main areas of study.
Prerequisite: A minimum grade of C is required in Algebra I. Course Objectives: At the completion of this course the student will be able to:
· Demonstrate an understanding
of the knowledge contained in the basic laws and principles of Physics, specifically
motion, forces, energy, waves, and light.
· Obtain proficiency in problem solving and
the application of fundamental principles to a variety of situations.
· Demonstrate an understanding of the physical
laws fundamental to all sciences in the context of everyday applications relevant
to the student.
· Develop a repertoire of problem solving skills.
Essential Concepts and Skills: The student will be able to:
· Develop and apply the
techniques of observations, data collection, data analysis, prediction and
scientific reasoning in conducting experiments that demonstrate the natural
phenomena of principles of physics.
· Apply proper procedures in lab exercises to
isolate specific variables.
· Follow recommended lab safety procedures and
precautions.
· Develop the principles of teamwork - leadership,
acceptance of responsibility, and coordination of efforts.
· Develop and understand the proper format in
presenting information obtained from a formal lab exercise, i.e. laboratory
write-up, to communicate results. Including suggesting ways to improve experiments.
Learning Experiences and Activities: The student may be exposed to but not limited to the following types of activities within the semester:
· Reinforce that precision
is limited on measuring devises and that accuracy is the degree to which a
result agrees with an accepted value.
· Reinforce skills developed for using scientific
notation and significant digits appropriately.
· Develop skills in trigonometry and apply to
specific real life situations.
· Describe qualitatively and quantitatively
relationships of displacements, velocities, accelerations, forces, vectors,
momentum, work and energy in one and two dimensions for some areas.
· Learn accepts of graphing motion and develop
how to interpret graphs of real life situations.
· Demonstrate laws of reflection, refraction
and interference of waves on springs and understand that sound and light waves
which are not visible also exhibit the same phenomena as these waves which
are visible.
· Learn the additive process of mixing colors
of light and how this process corresponds to the absorption of colors by pigments.
Assessments: The students may be evaluated but not limited to the following:
· Correct format for
all laboratory write-ups. Evaluated by using a teacher developed rubric based
on the department general rubric. Including neatness, accuracy, presentation
and correctness.
· Teacher generated, objective quizzes and assignments.
· Homework assignments as needed to reinforce
and supplement topics under discussion.
· In class problems requiring conversions and
calculations.
· All students will be given access to a journal
on a daily basis to indicate topics, activities, laboratory exercises, homework
assignments, quizzes, etc. which were covered in class.
Materials/Technology: The students will be exposed
to but not limited to the following:
· Basic Text Book: Zitzewitz,
Murphy, Physics Principles and Problems, Merrill Publishing Co., 1990
· Lab Equipment necessary to complete all assignments
· "Current Event Assignment:: library use, internet
access, newspapers etc. Video tapes appropriate for specific topic, most from
the Annenberg/CPG Collection "The Mechanical Universe...And Beyond" Series.
· Use of computer programs, such as Microsoft Word
for creating tables, Cricket Graph or Excel for creating graphs with curve
fits, and Interactive Physics.
