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- Biomedical Engineering Department/Medical Devices Laboratory : This laboratory includes a group of different medical devices used by the doctor for treatment and diagnosis purposes, and is invested in supporting the practical side of the materials
| Medical equipment laboratory | Where students are trained to operate and operate parts of medical devices that assist doctors in operating theaters and hospitals. For example, such as medical anesthesia devices. |
| The Diagnostic Devices Laboratory | trains students to deal with the different parts of medical diagnostic devices, such as X-ray and sonar devices. |
| Therapeutic Devices Laboratory | trains the student by dealing with and examining therapeutic devices, such as physical medical rehabilitation devices, dentists’ devices, and devices that will contribute to the process of treating patients. |
- Medical measuring devices laboratory: This laboratory includes a group of different medical measuring devices, which are used to read the body’s vital indicators, such as pressure, glucose, heart and brain signals, and blood oxygen saturation rates. Which is considered one of the most important means that the doctor relies on to follow up and monitor the patient’s condition. The student is trained to use these devices and learn about their various components.
- Electricity and electronics laboratory: This laboratory includes advanced electronic devices that are used to develop the practical side of a group of written scientific materials.
| Electrical Circuits | In this laboratory, students train on the foundations and concepts of electrical circuits. By connecting electrical circuits and calculating the loads and signals generated and resulting from them. The student uses laboratory equipment such as an oscilloscope (oscilloscope, function generator, and other laboratory devices). |
| Electronics | The student is trained to connect electronic circuits such as electronic switches, amplifiers, and signal filters. He practices connecting them and watches their effect on the analogue signal. |
| Digital Electronics | Digital circuits are considered the basic units that make up all modern medical devices. In this laboratory, students are trained to connect synthetic and serial digital circuits, observe their performance, and record the results of their work. Students use simulation programs in addition to physically connecting electronic chips to laboratory boards. |
| Communications | Medical devices transmit various signals, both digital and analogue. To understand the device’s operation well, it is important to know the methods of sending, modifying and retrieving signals. In this laboratory, students are trained to connect the circuits for generating digital and analogue communication systems, modulation methods for both types, and calculating role models and the effect of frequency change. Drawing the incoming and outgoing waves for each system and converting from analogue to digital and vice versa. Students are also trained to design the various filters that are important in most modern medical devices, to observe the performance of the devices and record the results of their work. All of this is done by connecting the chips and electronic parts in a practical way to the boards. |
- Electronic computers laboratory:
| Computer programming | students train on computer programming skills using the C++ language, as it is one of the important and internationally approved programming languages for programming computer applications as well as programming embedded systems. |
| Electronic engineering drawing | where the student is trained in computer drawing techniques using the AutoCAD program, as it is considered one of the most important advanced engineering drawing methods that enables the student to implement two-dimensional and three-dimensional drawings. |
| Information Technology | The student is trained to deal with operating systems professionally by dealing with command line scripts for the Windows system as well as the Linux system. The student’s skill develops to access remote systems and deal with operating systems for some types of advanced medical devices. |
| Optical fibers | Using advanced simulation programs to train on the practical side of fiber optics. |
| Control | Using modern simulation software, students train on the concepts of electronic control, which are part of the design of most types of modern medical devices. |
| Image Processing | The science of image processing is involved in many medical applications that require identifying and improving image features, such as X-ray imaging and ultrasound. In this laboratory, the student is trained in image enhancement and processing algorithms using advanced software. |
| Numerical Analysis | Using software simulations, students practice mathematical concepts related to numerical analysis. |
| Microprocessors | The student is trained to study the parts and working mechanism of microprocessors and methods of implementing microcode in general. Students also program the Intel 8086 processor in assembly language and can view the contents of its parts in machine language. |
- Medical anatomy laboratory: This laboratory includes artificial human cadavers, showing all the internal and external parts and organs of the body. This laboratory invests in developing the practical aspect of materials.
- 1. Anatomy of the limbs In this laboratory, students practically see the anatomical parts of the various human limbs and the ligaments and joints related to them.
- 2. Anatomy of the torso. In this laboratory, students practically see the anatomical parts of the human torso and its related organs in order to understand their functions.
- 3. Anatomy of the neck and nerves In this laboratory, students practically see the anatomical parts of the neck, the nerves passing through it, and the functions of those nerves.
- Materials laboratory: This laboratory includes equipment related to materials mechanics, which includes two basic materials
- 1. Materials Science This laboratory includes laboratory equipment through which the student is trained to use these devices to know and determine the properties of metallic and other materials, which start from preparing the laboratory sample for microscopic examination to knowing and determining mechanical properties such as tensile strength, elasticity, and hardness. Up to shear stress.
- 2. Resistance of materials: Students are trained in a set of experiments in which some properties of metals are determined or measured, such as: stress and strain (yield stress, maximum limit, and fracture stress), determining the energy stored in the material during impact and twisting processes, and determining other properties that the material exhibits under the influence of a variable load. (fatigue and creep), hardness and the formation of major stress difference lines in various materials.
- Chemistry and physics laboratory: This laboratory includes equipment related to general sciences, specifically: chemistry and physics
- 1. Chemistry This laboratory was designed to conduct laboratory experiments for students for the purpose of clarifying some of the theoretical chemical principles that students learned in the classroom, as well as to help student’s complete practical experiments in an effective and safe manner. In it, students are able to prepare solutions with different concentrations, accurately determine the concentration of the amount of elements or substances, and detect their presence by quantitative volumetric analysis.
- 2. Medical Physics Laboratory, where students are trained to conduct practical experiments that keep pace with the theoretical aspect and simulate what happens similar to it in the human body and in the topics of force, viscosity, friction, sound, electricity, optics, and the application of important laws in pressure, light, and some of its properties such as diffraction, interference, and dispersion. Introducing modern experiments related to lasers and their uses in the field of biomedicine.
- Physiology and Histology Laboratory: This laboratory includes equipment related to physiology and histology
- 1. Physiology Training to understand how the human body works.
- 2. Tissues: View and view different models and samples of body tissues, using educational slides and advanced microscopes.
- Biomechanics Laboratory ; The student is trained in a set of experiments to understand the mechanics of movement of living organisms in general and the human body in particular.
