10806182Forces, Fields and Energy
Course Information
Description
Forces, Fields and Energy offer an in-depth study of electricity and magnetism, including electrostatics, electric and magnetic field theory, electric circuits and electronics. The course also includes a brief introduction to kinematics, dynamics, work and energy so that they can be applied to electric and magnetic systems. The course concludes with an introduction to wave optics and the wave/particle duality of light and subatomic particles.
Total Credits
3
Course Competencies
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Demonstrate safety procedures and protocols in the laboratoryAssessment Strategiesby submitting completed of lab activitiesCriteriayou explain the use of safety equipment in the laboratoryyou locate the safety equipment in the laboratoryyou locate the emergency exit foute from the laboratoryyou apply safety procedures in handling high voltages
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Apply the concepts of kinematicsAssessment Strategiesthrough completion of homeworkthrough completion of quizzes and examsthrough completion of lab activitieswith the use of a scientific calculatorCriteriayou distinguish between displacement, distance, velocity, speed, acceleration and timeyou solve problems involving displacement, velocity, acceleration and timeyou show the steps used to solve problemsyou include correct units of measure in your answer
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Apply the laws of dynamicsAssessment Strategiesthrough completion of homeworkthrough completion of lab activitiesthrough completion of quizzes and examswith the use of a scientific calculatorCriteriayou apply Newton's laws of motionyou draw an accurate free body diagram representing forces in a problemyou use free body diagrams to solve for unknownsyou solve circular motion problemsyou show the steps used to solve problemsyou include correct units of measure in your answer
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Apply the concepts of work, energy and powerAssessment Strategiesthrough completion of homeworkthrough completion of lab activitiesthrough completion of quizzes and examswith the use of a scientific calculatorCriteriayou distinguish between work, energy, kinetic energy, potential energy and poweryou solve problems involving workyou solve problems involving poweryou solve problems involving potential, and kinetic energy and the conservation of energyyou apply energy principles to electrostatic and electrodynamic systemsyou show the steps used to solve problemsyou include correct units of measure in your answer
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Apply principles of electrostaticsAssessment Strategiesthrough completion of homeworkthrough completion of lab activitiesthrough completion of quizzes and examswith the use of a scientific calculatorCriteriayou solve Coulomb's law problemsyou analyze electric fieldsyou apply electric fields to electron beam deflectionyou differentiate between conductors, insulators and semi-conductorsyou apply concepts of electric potential and electric potential energyyou show the steps used to solve problemsyou include correct units of measure in your answers
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Apply principles of electric currentAssessment Strategiesthrough completion of homeworkthrough completion of lab activitiesthrough completion of quizzes and examswith the use of a scientific calculatorCriteriayou explain the flow of chargeyou explain the functioning of circuit elementsyou apply Ohm's lawyou apply Kirchoff's lawsyou analyze circuitsyou solve problems involving electric poweryou interpret circuit diagrams to build and analyze circuitsyou show the steps used to solve problemsyou include correct units of measure in your answers
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Analyze magnetic fieldsAssessment Strategiesthrough completion of homeworkthrough completion of lab activitiesthrough completion of quizzes and examswith the use of a scientific calculatorCriteriayou explain magnetic fields and their sourceyou apply magnetic force lawsyou summarize magnetic force law applicationsyou apply magnetic fields to electron beam deflectionyou apply principles of inductionyou explain the functioning of inductors, transformers and generatorsyou show the steps used to solve problemsyou include the correct units of measure in your answers
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Use electronic measurement devicesAssessment Strategiesthrough completion of lab activitiesthrough completion of quizzes and examswith the use of a scientific calculatorCriteriayou use a multimeter to measure current in AC and DC circuitsyou use a multimeter to measure voltage in AC and DC circuitsyou use an oscilloscope to analyze electric signals and circuits
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Analyze electronic systemsAssessment Strategiesthrough completion of homeworkthrough completion of lab activitiesthrough completion of quizzes and examswith the use of a scientific calculatorCriteriayou explain the functioning of doped semi-conductors and p-n junctionsyou explain the application and functioning of a diodeyou summarize the application and functioning of a field effect transistoryou build and analyze AC to DC convertersyou use circuit diagrams to construct electronic circuits
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Analyze wave opticsAssessment Strategieswith the use of a scientific calculatorthrough completion of homeworkthrough completion of lab activitiesthrough completion of quizzes and examsCriteriayou solve problems involving frequency, wavelength, wave speed and amplitudeyou determine characteristics of electromagnetic wavesyou explain wave and particle properties of light and electronsyou calculate the deBroglie wavelength of an electronyou analyze interference patternsyou analyze diffraction gratingsyou show the steps used to solve problemsyou include the correct units of measure in your answers