14.- BIOMEDICAL ENGINEERING

Biomedical Engineering studies the implementation of engineering knowledge in the field of biology and medicine. The combination of instrumentation and electronic control systems and the application of mathematical algorithms and physical and chemical principles allow Biomedical Engineering to investigate and develop new techniques and devices for the resolution of clinical problems. This discipline covers from the design of diagnostic elements and medical software tools to physiological analysis for the study of the heart or the nervous system.

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Biomedical Engineering has evolved over the years thanks to scientific and technological advances. At present, devices such as vital signs monitoring systems or diagnostic devices facilitate medical care work. The development of image analysis methods such as X-rays, ultrasounds and magnetic resonance allow the study of the human organism clearly and quickly. In addition, telemedicine and hospital management software are used.

The future of Biomedical Engineering has a long way to go, since today's society requires fast and efficient medical solutions. The electronic devices used day to day will allow remote patient monitoring, following the vital signs values to be able to analyze the symptoms before a health problem and, even, prevent that possible problem. Another trend of Biomedical Engineering is the simplification of laboratory tools. Systems, such as Lab On a Chip (LOC), integrate laboratory functions into a single chip. New robotic surgery techniques, new organic materials for the manufacture of artificial tissues and regenerative tissues or 3D printing of artificial organs will make it possible to resolve future medical needs.

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BIOMEDICAL ENGINEERING SUBCATEGORIES

14.1.- BIOMECHANICS

Biomechanics studies the mechanics of movement of the living beings organism, among them the human body movement. This study ranges from the simplest movements of daily life, such as work or sports activity, to the movement of some internal organs, such as the heart. To study the human body...
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14.2.- BIOMEDICAL ELECTRONICS

Biomedical Engineering studies the application of engineering knowledge in the field of biology and medicine. One of the most relevant areas of this engineering is the Biomedical Electronics, in which the concepts of electronics are applied for the development of medical instrumentation.Nowadays,...
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14.3.- BIOMEDICAL EQUIPMENT

Biomedical Equipment is the set of instruments used in the field of medicine, biology and pharmacology. The design of biomedical equipment is directly related to Biomedical Instrumentation, in which instruments are designed to obtain information, apply treatments or perform chemical and...
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14.1.- BIOMECHANICS 14.2.- BIOMEDICAL ELECTRONICS 14.3.- BIOMEDICAL EQUIPMENT
BIOMEDICAL ENGINEERING UNITS
1.- PHYSICS 2.- ELECTRONICS 3.- COMMUNICATIONS 4.- ELECTRICITY 5.- ENERGY 6.- MECHATRONICS & AUTOMATION 7.- MECHANICS 8.- FLUID MECHANICS 9.- THERMODYNAMICS & THERMOTECHNICS 10.- PROCESS CONTROL 11.- CHEMICAL ENGINEERING 12.- FOOD & WATER TECHNOLOGIES 13.- ENVIRONMENT 14.- BIOMEDICAL ENGINEERING LABORATORY ACCESSORIES CUSTOMIZED PILOT PLANTS
14.1.- BIOMECHANICS 14.2.- BIOMEDICAL ELECTRONICS 14.3.- BIOMEDICAL EQUIPMENT
14.1.1.- MECHANICS FUNDAMENTALS KITS 14.1.2.- SIMPLE MACHINES 14.1.3.- STATICS AND DYNAMICS 14.1.4.- VIBRATIONS AND OSCILLATIONS 14.1.5.- TRIBOLOGY (FRICTION, WEAR, LUBRICATION) 14.1.6.- STRUCTURAL MECHANICS 14.1.7.- PHOTOELASTICITY AND STRAIN MEASUREMENT 14.1.8.- MECHANICAL TESTS 14.1.9.- THERMAL AND ACOUSTIC TESTS 14.2.1.- THEORETICAL-PRACTICAL FUNDAMENTALS 14.2.2.- INSTRUMENTATION AND CONTROL
14.1.2.1.- MECHANISMS 14.1.2.2.- GEARS 14.2.1.1.- BASIC ELECTRICAL LAWS CONCEPTS 14.2.1.2.- ANALOG ELECTRONICS 14.2.1.3.- DIGITAL ELECTRONICS 14.2.1.4.- SEMICONDUCTORS 14.2.1.5.- INSTRUMENTATION AND CONTROL 14.2.1.6.- POWER ELECTRONICS
Showing 13-24 of 181 item(s)
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WHITWORTH QUICK RETURN MECHANISM - MBM2
  • MBM2
Available
7.1.2.1.- MECHANISMS
MBM2
Whitworth Quick Return Mechanism
The Whitworth Quick Return Mechanism, "MBM2", is a mechanism able to transform circular movement into reciprocating movement. It ismade of aluminum and consists of a rotary element, called crank, with a graduated disk, connected to a rigid bar,...
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FOUR-BAR MECHANISM - MCA
  • MCA
Available
7.1.2.1.- MECHANISMS
MCA
Four-Bar Mechanism
The Four-Bar Mechanism, "MCA", designed by EDIBON, is a bench-top unit to perform laboratory experiments.It is made of anodized aluminum and consists of two rotary elements (graduated discs) mounted on ball bearings. The discs include a scale to...
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GENEVA STOP MECHANISM - MME
  • MME
Available
7.1.2.1.- MECHANISMS
MME
Geneva Stop Mechanism
The Geneva Stop Mechanism, "MME", designed by EDIBON, is a mechanism that transforms continuous circular motion into intermittent motion. It is a positive drive in which the driven wheel is positively moved or locked.It is made of aluminum and...
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COUPLING MECHANISM - MAC
  • MAC
Available
7.1.2.1.- MECHANISMS
MAC
Coupling Mechanism
The Coupling Mechanism, "MAC", represents a simple Oldham type coupling. The lateral displacement of the input and output shafts may be varied and circular scales are fitted to the input and output flanges.It consists of two outer discs made of...
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HOOKE'S JOINT MECHANISM - MUN
  • MUN
Available
7.1.2.1.- MECHANISMS
MUN
Hooke's Joint Mechanism
The Hooke’s Joint Mechanism, "MUN", designed by EDIBON, represents a universal coupling, also called a U-joint, Hooke joint or cardan joint. The Hooke joint is a universal mechanism that is often used to transmit rotary motion between two...
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CAM AND FOLLOWER MECHANISM - MEX
  • MEX
Available
7.1.2.1.- MECHANISMS
MEX
Cam and Follower Mechanism
The Cam and Follower Mechanism, "MEX", allows to study the cam-follower and eccentric-follower mechanisms. For that purpose, several plate cam models in different forms, one eccentric and several roller-shaped, flat-shaped, wedge-shaped and...
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CRANK MECHANISM - MBI
  • MBI
Available
7.1.2.1.- MECHANISMS
MBI
Crank Mechanism
The Crank Mechanism "MBI", is a unit designed to observe, study and record the motion of a crank and the forces involved in a simple engine mechanism. The piston is linearly displaced through a cylinder with the aid of a guide.Bearings are coupled...
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ACKERMANN STEERING MECHANISM - MDA
  • MDA
Available
7.1.2.1.- MECHANISMS
MDA
Ackermann Steering Mechanism
The Ackermann Steering Mechanism, "MDA", is a bench-mounted unit designed to determine the lead angle of a steering trapezoid in an Ackermann steering mechanism, the disadvantages of incorrectly adjusted track rods and the influence of the track...
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WINCH MECHANISM - MMEL
  • MMEL
Available
7.1.2.1.- MECHANISMS
MMEL
Winch Mechanism
The Winch Mechanism, "MMEL", allows to study the lifting velocity and load transmission of a winch. Efficiency and load transmission can be determined by force balance.The unit consists of a gear transmission mechanism. One gear is the input gear...
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BAR LINKAGES UNIT - MBLU
  • MBLU
Available
7.1.2.1.- MECHANISMS
MBLU
Bar Linkages Unit
The Bar Linkages Unit "MBLU" allows many experiments using different arrangements of their parts.The "MBLU" unit includes a selection of more than twenty perforated bars of different lengths and pivots or "joints" to allow students to configure...
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WORM AND WHEEL UNIT - MTSF
  • MTSF
Available
14.1.2.2.- GEARS
MTSF
Worm and Wheel Unit
The Worm and Wheel Unit, "MTSF", allows to demonstrate the principle of a worm gear.The unit consists in a worm and a wheel. These parts are mounted on ball bearings and fixed to a vertical panel.The worm and wheel are positioned a set distance...
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ACCELERATION OF GEARED SYSTEM UNIT - MAE
  • MAE
Available
14.1.2.2.- GEARS
MAE
Acceleration of Geared System Unit
The Acceleration of Geared Systems Unit "MAE" allows to perform tests to calculate the moment of inertia of a gear train system.The MAE unit includes six gears. Two of them can have another position in the shafts to vary the gear ratio, allowing...
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