Upon successful completion of this course, students will be able to: review network basic, recognize threatens to computers and networks, analyze and inspect network protection, and deploy system security.

Upon successful completion of this course, students will be able to: deploy a Microsoft Windows Server, implement Microsoft network infrastructure, analyze and deploy remote storage, printers and connections, and configure secured networks and servers.

Upon successful completion of the learning experience, students will gain a complete, step-by-step approach for learning the fundamentals of administration of Microsoft Azure services. This course maps fully to Microsoft Azure Cloud Fundamentals, AZ-900 Exam objectives and Fiber Optic Association’s Certified Fiber Optic Technician, CFOT Exam objectives. Upon successful completion of this course, students will be able to:  Understand the various shared models and the benefits of using cloud services, Deploy Azure services with various components, resources, tools, and security features, Describe methods for planning and managing costs and service life-cycle, Understand fiber optics and make connections of fiber optic.

Upon successful completion of the learning experience, students will be able to: gain a complete, step-by-step approach for learning the fundamentals of supporting and troubleshooting computer hardware and software. This course maps fully to CompTIA’s latest A+ 220-1001 exam objectives: properly build a computer system; install, configure, and maintain Windows; have an extensive knowledge of processor history and types of processors used; know both historical and conceptual theories on each individual component; learn the proper field terminology in order to discuss how the components work.

Upon successful completion of this course, students will be able to construct passive and active low pass and high pass filters, ceramic band pass filter and switched capacitor filters and observe the frequency response, build various types of AM modulator and demodulators, construct FM Transmitters and receivers using pulse averaging demodulator, observe the Phase locked Loop response as FM receiver, crystal oscillator, understand importance of power amplifiers for radio Transmitters, calculate noise in receiver circuits and observe PLL as  Frequency Synthesizer, familiar with frequency shift keying digital modulation, understand and observe of Pulse Amplitude Modulation and time Division multiplexing, troubleshoot and learn about equipment used in communication tests, work with wireless device.

Upon successful completion of this course, students will use Transistor-Transistor -Logic (TTL) circuits such as gates, encoders, decoders, and digital integrated circuits; construct digital circuit pin diagrams; describe troubleshooting techniques, construction of digital circuits; conduct experiments and analyze the results; construct and test various combinational digital circuits.

Upon successful completion of this course, students will be able to: understand digital signals, basics of integrated circuit building techniques, to implement TTL and CMOS gate logic circuits and test their functions, combining and simplifying logic gate circuits, identify Integrated Circuits specifications, implement Encoder, Decoder and Seven-Segment Displays, Flip-Flop, Counter, Shift Register, Arithmetic, Memory, Analog to Digital and Digital to Analog Circuits, identify the fundamentals programmable logic controller system, identify the basic components of the PLC and how to make connection, understand and familiarize with software basics and write a basic program for PLC using Allen Bradley Software.

Upon successful completion of the course, students will be able to: explain the fundamentals of second part of digital electronics sequential circuits consists of flip flops, counters, registers, binary arithmetic circuits, memories, analog-to-digital-to-analog conversions, programmable logic controllers (overview of PLCs and relays, Micrologix PLC hardware components, basics of PLC programming, PLC wiring diagrams, ladder logic programs, PLC Instructions, circuit analysis and troubleshooting techniques, skills about installing, programming, and troubleshooting a PLC system.

Upon successful completion of the laboratory course, students will be able to: demonstrate proper use of multimeter, oscilloscopes and power supply; analyze complex resistive circuits, series RCL circuits, parallel RCL circuits, Filter analysis and transformer principle, lay out components on a printed circuit board according to a schematic; understand electrical circuits using schematics and breadboards, take measurements, organize data, create graphs, and analyze observations.

Upon successful completion of the laboratory course, students will be able to: use the bread board, multi-meter, and oscilloscope, measure the time, frequency and voltage using the oscilloscope, analyze different types of diode and effects of combining a P-N junction and results of forward and reverse biasing, identify the types of rectification, explain working principle of  BJTs, FET’s, MOSFET’s with emphasis on amplifiers, describe and recognize different amplifier configurations and classifications, recognize and understand their operations, familiar with Operational Amplifiers and associated circuits including Inverting/Non Inverting, Schmitt trigger, and oscillator circuits, establish concepts to effectively observe, isolate and correct circuit malfunctions, understand the operation of 555 timer and SCR.

Upon successful completion of the course, students will be able to: Communicate and write with accuracy and correctness; Emphasize the structural relationship of a sentence so that correct grammar usage and mechanics are applied with reference to the students’ career goals; Demonstrate effective and accurate verbal and written communication skills; Utilize effective research skills ;Illustrate the structure of the English language; Apply critical thinking strategies to communicate appropriately in given situations; Produce practical applications of the various writing formats taught through oral presentation and written assignments.

Upon successful completion of the learning experience, students will be able to: identify the concepts of physics as they pertain to their application in the allied health field and cardiovascular technology; explain how waves and sound are directly associated with medical sonography; apply Bernoulli’s principles as it pertains to normal blood flow through vessels; discuss the scientific significance that Newton’s laws have on modern civilization, explain types of energy and how they are related to ultrasound machines; analyze and understand sound waves and properties of waves applicable to medical ultrasound; illustrate frequency, wavelength, and amplitude of waves and apply these concepts to diagnostic ultrasound procedures; demonstrate the usage of scientific and qualitative reasoning to convert mathematical values from the English system into the metric system, and vice versa.

Upon successful completion of the course, students will be able to: Explain the central in central service: central service workflow; basic job knowledge and skills; basic job responsibilities; basic central service concerns; identify regulations and standards; US Food and Drug Administration; other federal regulation agencies; professional associations; review tools for cleaning, point of use preparation and transport, cleaning and decontamination, disinfection of surgical instrumentation, central service and infection prevention and control; OSHA blood borne pathogen standards; central service environment; principles of asepsis; explain quality in central service operations; discuss common workplace safety hazards; identify flash sterilization standards; describe the importance of managing inventory; review the need to track equipment; describe an overview of sterile packaging process; discuss factors that impact sterilization; explain patient care equipment.

Upon successful completion of the learning experience, students will be able to:

1. Analyze the court system.
2. Identify the different types of legal entities and types of managed care delivery systems.
3. Describe the importance of understanding basic employment, discrimination, and harassment laws when hiring, promoting, and terminating employees.
4. Differentiate between federal and state law and parties to a lawsuit.
5. Identify behavior that is classified as criminal and differentiate criminal and civil causes of action.
6. Explain the elements necessary to make a contract and how express and implied contracts are formed.
7. Distinguish between a cause of action for negligence and one for malpractice and list the elements of each. Analyze the phases of a malpractice trial.
8. Define the importance of health record credibility and who owns the medical record.
9. Distinguish between law, morals, ethics, and etiquette.
10. Distinguish between privacy, confidentiality, and privileged communication.
11. Identify some of the problems faced by medical professionals allocating resources and doing medical research and experimentation.
12. Recognize the impact of expanding technology on ethical questions involving birth and the beginning of life.
13. Articulate the need for a do-not-resuscitate (DNR) order from the patient’s perspective.
14. Develop the student’s ability to recognize various legal issues facing the medical facility.
15. Improving the student’s critical thinking skills

Upon successful completion of the learning experience, students will be able to: practice communicating clearly with medical/health care professionals; apply critical thinking skills in learning, conducting applied research, and defining and solving problems; accurately recognize and pronounce medical terms; perform, spell and define medical terms; analyze and understand medical terms through prefixes, suffixes and word roots; relate medical terms to the structure and function of the human body; correctly recognize and use medical terms in a variety of situations, such as case studies, medical charts, laboratory reports, professional journals, and communicating with medical professionals and clients.

Upon successful completion of the learning experience, students will be able to: identify anatomy and electrophysiology of the heart and measure the components of the normal adult ECG (electro cardiogram), recognize and diagnose a trial and ventricular dysrhythmias; recognize and diagnose junctional and atrioventricular heart blocks; diagnose myocardial ischemia and infarction, hypertrophy, bundle branch blocks and pre-excitation; calculate electrical axis; prepare and instruct the patient for Holter monitoring and exercise tolerance testing; recognize pacemaker electrocardiograms and changes in the electrocardiogram due to drug effects and toxicity.