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SCIT Catalog
<br />C220L APPLIED NUMERICAL
<br />COMPUTING LAB
<br />2 UNITS
<br />COREQUISITE: C220
<br />This lab course allows students to apply
<br />concepts learned in C220. Students
<br />learn programming techniques available
<br />In MATLAB to compute and visually
<br />depict systems of equations. Formerly
<br />C495.
<br />C230 COMPUTER AIDED DESIGN
<br />2 UNITS
<br />This is an introductory course in
<br />freehand sketching and computer -aided
<br />design. Studentswill be taught basic
<br />CAD commands, tools, multi -view
<br />drawing and dimensioning techniques.
<br />Students learn to use many of the
<br />powerful electrical drawing creation
<br />tools In the AutoCAD Electrical software.
<br />Students will create schematic drawings
<br />(ladder logic and point to point), panel
<br />drawings, and PLC-1/0 circuits using
<br />automated commands for symbol
<br />Insertion, component tagging, wire
<br />numbering, and drawing modification.
<br />Students are also introduced to
<br />methods of customizing AutoCAD
<br />Electrical symbols, circuits, and
<br />databases. Formerly C300 when taken
<br />with C230L.
<br />C230L COMPUTER AIDED DESIGN LAB
<br />2 UNITS
<br />COREQUISITE: C230
<br />This course allows students to apply
<br />their knowledge as It relates to C230.
<br />Formerly C300 when taken with C230.
<br />C302 ADVANCED COMPUTER
<br />PROGRAMMING
<br />2 UNITS
<br />PREREQUISITE: C201B
<br />This course Includes advanced
<br />programming concepts including the
<br />utilization of external libraries,
<br />exception handling, software
<br />architecture, enhancing performance,
<br />and debugging strategies.
<br />C302L ADVANCED COMPUTER
<br />PROGRAMMING LAB
<br />2 UNITS
<br />COREQUISITE: C302
<br />This course allows students to apply
<br />their knowledge as It relates to C302.
<br />CHEM CHEMISTRY
<br />CHEM200A GENERAL CHEMISTRY
<br />3 UNITS
<br />This course includes the introduction to
<br />physical and chemical properties ofthe
<br />elements, chemical reactions, gas laws,
<br />chemical nomenclature, structure of
<br />atoms, chemical bonding, and solutions.
<br />Formerly CHEM105 when taken with
<br />CHEM200B.
<br />CHEM200B GENERAL CHEMISTRY B
<br />3 UNITS
<br />PREREQUISITE: CHEM200A
<br />This course is a continuation of
<br />CHEM200A where students further
<br />study structures of atoms, chemical
<br />binding and solutions.
<br />This course includes the introduction to
<br />physical and chemical properties of the
<br />elements, chemical reactions, gas laws,
<br />chemical nomenclature, structures of
<br />atoms, chemical bonding, and solutions.
<br />Formerly CHEM105 when taken with
<br />CHEM200A.
<br />CHEM205* ORGANIC CHEMISTRY
<br />4 UNITS
<br />PREREQUISITE: CHEM200B
<br />This course Includes the Introduction to
<br />the basic principles, theories, and
<br />applications of the chemistry of carbon
<br />compounds. Representative reactions,
<br />preparation, and properties of carbon
<br />compounds will be covered.
<br />EE ELECTRONICS
<br />EF103 INTRODUCTION TO ELECTRONICS
<br />4 UNITS
<br />This course familiarizes the student with
<br />electricity and the electronic laws and
<br />formulas that apply to DC Electronics.
<br />They learn fundamentals such as: series
<br />circuits, parallel circuits, capacitors,
<br />resistors, Inductors, time constants, and
<br />ohm's law. This course also covers AC
<br />currents, Inductive reactance, capacitive
<br />reactance, and circuit Impedance. Also
<br />covered are wave shaping devices,
<br />power conversion circuits, AC
<br />measurements and calculations, circuit
<br />resonance, high pass, low pass, band
<br />pass, band reject filters, transformers,
<br />and AC applications. formerly EL101
<br />and EL120.
<br />EE103L INTRODUCTION TO
<br />ELECTRONICS LAB
<br />2 UNITS
<br />COREQUISITE: EE103
<br />Students learn to construct simple DC
<br />circuits, observe safety precautions,
<br />make component value determination,
<br />test circuits with a meter and start
<br />working with schematics. Formerly
<br />EL102.
<br />EE142 SEMICONDUCTOR DEVICE
<br />ELECTRONICS
<br />2 UNITS
<br />PREREQUISITE: ELE100
<br />This course covers diodes, zeners, the
<br />various classes of amplifiers, transistor
<br />switching applications, and amplifier
<br />configurations, biasing techniques for
<br />linear circuit operation, SCRs, TRIACs
<br />and Thyristors, 1FETS, MOSFETS,
<br />Unijunction Transistors, and Break over
<br />Devices, Operational Amplifiers, and
<br />oscillators. Formerly EL140 and EL212.
<br />EE142L SEMICONDUCTOR DEVICE
<br />ELECTRONICS LAB
<br />2 UNITS
<br />COREQUISITE: EE142
<br />This is a lab course usingdiodes, senors,
<br />and transistors to construct half wave,
<br />full wave, and bridge rectifier circuits,
<br />small signal & power amplifiers, and
<br />voltage regulators. Formerly EL141.
<br />EE160 DIGITAL ELECTRONICS
<br />2 UNITS
<br />PREREQUISITE: ELE100
<br />This course examines the combination
<br />and sequential circuits. Students are
<br />introduced to the circuits that store/or
<br />process digital information. Course
<br />starts with the review on flip-flops and
<br />continue to explore sequential circuits
<br />such as counters and shift registers.
<br />After sequential circuits, combination
<br />circuits such as encoders, decoders,
<br />multiplexers, and demultiplexers are
<br />discussed. Furthermore, the
<br />applications of logic circuits in
<br />arithmetic are discussed. Lastly, analog -
<br />to -digital and digital -to -analog devices
<br />are Introduced and their Integrated
<br />circuits are discussed.. Formerly CL160
<br />and EL220.
<br />EE160L DIGITAL. ELECTRONICS LAB
<br />2 UNITS
<br />COREQUISITE: EE160
<br />This course allows student to apply
<br />concepts learned in EE160 in a lab
<br />setting. Formerly EL221.
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