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PHYSICS COURSE SYLLABUS Lucy C. Laney High School School Year: 2015-2016 Teacher: Mrs. A. Harrison Room Number: 310 Tutorial Days: Monday-Wednesday Email: [email protected] Phone: (706) 823-6900 Tutorial Hours: 2:45 PM – 3:15 PM Course Description: Prerequisites: Biology, Physical Science, Chemistry The Physics curriculum is designed to continue student investigations of the physical sciences that began in grades K-8 and provide students the necessary skills to be proficient in physics. This curriculum includes more abstract concepts such as interactions of matter and energy, velocity, acceleration, force, energy, momentum, and charge. Students investigate physics concepts through experience in laboratories and field work using the processes of inquiry. GPS Standards/ Objectives: SP1. Students will analyze the relationships between force, mass, gravity, and the motion of objects. a. Calculate average velocity, instantaneous velocity, and acceleration in a given frame of reference. b. Compare and contrast scalar and vector quantities. c. Compare graphically and algebraically the relationships among position, velocity, acceleration, and time. d. Measure and calculate the magnitude of frictional forces and Newton’s three Laws of Motion. e. Measure and calculate the magnitude of gravitational forces. f. Measure and calculate two-dimensional motion (projectile and circular) by using component vectors. g. Measure and calculate centripetal force. h. Determine the conditions required to maintain a body in a state of static equilibrium. SP2. Students will evaluate the significance of energy in understanding the structure of matter and the universe. a. Relate the energy produced through fission and fusion by stars as a driving force in the universe. b. Explain how the instability of radioactive isotopes results in spontaneous nuclear reactions. SP3. Students will evaluate the forms and transformations of energy. a. Analyze, evaluate, and apply the principle of conservation of energy and measure the components of work-energy theorem by • describing total energy in a closed system. • identifying different types of potential energy. • calculating kinetic energy given mass and velocity. • relating transformations between potential and kinetic energy. b. Explain the relationship between matter and energy. c. Measure and calculate the vector nature of momentum. d. Compare and contrast elastic and inelastic collisions. e. Demonstrate the factors required to produce a change in momentum. f. Analyze the relationship between temperature, internal energy, and work done in a physical system. g. Analyze and measure power. SP4. Students will analyze the properties and applications of waves. a. Explain the processes that results in the production and energy transfer of electromagnetic waves. b. Experimentally determine the behavior of waves in various media in terms of reflection, refraction, and diffraction of waves. c. Explain the relationship between the phenomena of interference and the principle of superposition. d. Demonstrate the transfer of energy through different mediums by mechanical waves. e. Determine the location and nature of images formed by the reflection or refraction of light. SP5. Students will evaluate relationships between electrical and magnetic forces. a. Describe the transformation of mechanical energy into electrical energy and the transmission of electrical energy. b. Determine the relationship among potential difference, current, and resistance in a direct current circuit. c. Determine equivalent resistances in series and parallel circuits. d. Determine the relationship between moving electric charges and magnetic fields. SP6. The student will describe the corrections to Newtonian physics given by quantum mechanics and relativity when matter is very small, moving fast compared to the speed of light, or very large. a. Explain matter as a particle and as a wave. b. Describe the Uncertainty Principle. c. Explain the differences in time, space, and mass measurements by two observers when one is in a frame of reference moving at constant velocity parallel to one of the coordinate axes of the other observer’s frame of reference if the constant velocity is greater than one tenth the speed of light. d. Describe the gravitational field surrounding a large mass and its effect on a ray of light. Grading Scale* Lab Daily/Homework 25% 10% Quizzes Tests 30% 35% Required Materials: *Physics Textbook in class daily *Composition notebook and loose leaf paper for notes and journal writings *black/blue pen, pencil and highlighter. *Scientific calculator ** Each student will be responsible for keeping an organized science notebook throughout the school year. This notebook will contain notes, class work, homework, lab reports, journal entries, and requested assignment sheets. Classroom Expectations: All required supplies should be brought to class every day. The LCL non-negotiable and consequences for students are: 1. Being punctual 2. Wearing pants at the Waistline 3. Being considerate 4. Eating and drinking in the cafeteria only 5. Adhering to all RCBOE and LCL polices 6. Follow directions the first time they are given. 7. Come to class Prepared with all your necessary materials and be on time. 8. Be sure to raise your hand for permission to speak. Don’t speak when others are talking. 9. Remain Seated in your assigned seat. 10. Please use school-appropriate language and Attire. 11. Class participation Consequences, clear and concise 1. Verbal warning/Redirection 2. Call home/1 hour detention (after school only) 2:45 P.M. – 3:15 P.M. 3. Administrative referral Major infractions will result in immediate referral to the appropriate administrator. Late Assignments: Late assignments will receive a 20 point reduction the first day and subsequent 10 point deduction for every day late. Teacher will not receive late assignments after a week late. Make-up Policy: Excused/ Unexcused absences make up work within the same week as absence or next class period. Academic honesty: Students will receive a grade of zero for any of the following Copying or attempting to copy from another student’s paper. Use of or attempt to use any prepared materials, notes, computers or other devices not approved by the instructor. Collaboration (or attempted) with another student during a test Obtaining or attempting to obtain a copy of or answers to a test. Allowing another student to copy your work including homework, class work, or laboratory data. See me for any questions, makeup work, ANY concerns!!!!!!!! I will discuss all situations on an individual basis. ADDITIONAL INFORMATION This course includes a Mandatory Science Fair and Student Learning Objective (SLO) Exam (Details to follow) -----Cut & return to Teacher: --------------------------------------------------------------------------------------------RECEIPT of SYLLABUS ACKNOWLEDGEMENT Student Signature: ________________________________________ Date: ______________ Parent/Guardian Signature: ________________________________ Date: ______________ Class__________________________________________ Period _______________________________