Mustafa is a Lecturer Assistant at the University of Baghdad, where he teaches computer applications, including microsoft office apps and SPSS. With a focus on practical skills, Mustafa helps medical students develop essential competencies in data analysis and management. His teaching supports students in applying technology to healthcare and research, preparing them for the demands of the medical field. Passionate about integrating technology into education, Mustafa is dedicated to enhancing students' understanding of software tools critical to their future careers.
Mustafa S. Abood Alsudani is a Lecturer Assistant at the University of Baghdad, specializing in teaching computer applications, including microsoft office and SPSS. With a strong background in mechanical engineering and extensive experience in data analysis and statistical software, he equips medical students with essential skills for research and data-driven decision-making. Mustafa holds a PhD in Mechanical Engineering, focusing on Thermal Fluid, and brings his engineering expertise into the classroom to ensure students are well-prepared for the technological challenges of modern healthcare.
- Teaching computer applications, including SPSS and Excel, to medical students at the University of Baghdad.
- Providing technical support and conducting training in various engineering fields such as air conditioning, refrigeration, and microcontroller systems.
- Guiding students in statistical analysis, data management, and practical applications of software tools.
- Participating in curriculum development and contributing to the examination committee for more than two years.
- Overseeing administrative tasks such as data entry, student registration, and procurement management.
Ranked 1st in secondary school with a graduation average of 95% (2003). Ranked 1st in high school with a graduation average of 93% (2006). Ranked 1st in the Mechanical Engineering class and 4th in the College of Engineering with a B.Sc. degree (2010), achieving a graduation average of 87.321%. Received an excellent grade for the research project required for the M.Sc. degree (2016). Multiple appreciation and thanks letters for contributions to the college’s procurement, civil defense, and generator maintenance activities. Memberships:
Member of the examination committee for over two years.
- Thermal Fluid Dynamics: Specializing in the study of fluid flow and heat transfer in various mechanical systems.
- Aerodynamics: Focused on the aerodynamic characteristics of airfoils and their applications in automotive and aviation industries.
- Computational Fluid Dynamics (CFD): Utilizing CFD tools for simulating and optimizing mechanical processes, including soldering and drag reduction techniques.
- Ground Effect Aerodynamics: Investigating the influence of ground effects on vehicle stability and performance, particularly in inverted wing designs.
- Energy Efficiency in Mechanical Systems: Exploring the impact of components like thermostats on fuel consumption and overall energy efficiency in engines.
- Data Analysis in Healthcare: Using SPSS and other statistical tools for healthcare research, emphasizing data-driven decision-making.
- Mechanical Engineering: Specializing in thermal fluid dynamics and applied mechanics, with a strong foundation in the principles of mechanical engineering.
- Computer Applications in Engineering: Expertise in using software tools such as SPSS, Excel, ANSYS Fluent, and SOLIDWORKS for data analysis, simulation, and modeling.
- Statistical Analysis and Research Methodology: Proficient in applying statistical techniques for research, with a focus on quantitative data analysis in the healthcare sector.
- Teaching and Curriculum Development: Experience in developing and delivering lectures on computer applications and statistical software, fostering practical skills in students.
- Engineering Management: Involvement in administrative roles, including procurement and project management within educational and engineering contexts.
Computer Applications: Teaching essential software tools, including Excel and SPSS, to medical students, focusing on practical applications in data analysis and research.
Unlike welding, soldering does not involve melting the work pieces. Soldering is a process in which two or more items are joined together by melting and putting a filler metal (solder) into the joint. Failure in the solder joint may make the system components lose their functions. Electrical wiring and electronic components are joined to devices and printed circuit boards using soldering. Soldering and brazing are both used in the assembly of musical instruments. Lead-tin alloy solder employed in the current investigation which has a diameter of 4 mm and a density of 11.0103 kg/m3 with continuous heat flux heating from the domain's left side and complete insulation on the other side. The melting of PCM was simulated using the ANSYS
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An experimental study on a KIA pride (SAIPA 131) car model with scale of 1:14 in the wind tunnel was made beside the real car tests. Some of the modifications to passive flow control which are (vortex generator, spoiler and slice diffuser) were added to the car to reduce the drag force which its undesirable characteristic that increase fuel consumption and exhaust toxic gases. Two types of calculations were used to determine the drag force acting on the car body. Firstly, is by the integrating the values of pressure recorded along the pressure taps (for the wind tunnel and the real car testing), secondly, is by using one component balance device (wind tunnel testing) to measure the force. The results show that, the avera
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