Posts tagged Fluid Mechanics
MPS20N0040D Pressure Sensor Calibration with Arduino
MPS20N0040D Pressure Sensor Calibration with Arduino

Pressure is defined as an evenly distributed force acting over a surface with a given area. The accurate measurement of pressure is essential for applications ranging from material testing to weighing scales, aircraft altitude prediction, and evaluating biological functions in humans relating to respiration and blood flow In this tutorial, a digital pressure transducer and analog pressure manometer will be used to measure gauge pressure - where the analog manometer is used as the calibration tool for the digital pressure sensor. Arduino will be used to read the digital pressure transducer, an MPS20N0040D, and a 3D printed manometer will be used to measure analog pressure manually.

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Engineering, ArduinoJoshua HriskoMPS20N0040D, Pressure, Pressure Sensor, Gauge Pressure, 2.5mm, Tubing, Calibration, Arduino, Arduino Calibration, Arduino Pressure, Arduino Pressure Sensor, Sensor, Engineering, Engineer, Mechanical Engineering, Fluid, Fluid Mechanics, Arduino Fluids, Arduino Air, Arduino Sensor, Breadboard, Gravity, Data, Analysis, Data Analysis, U-Tube Manometer, Manometer, U-Tube, Bernoulli, Force, Transducer, Most Popular 2021, Most Popular 2020 Comments
Arduino + VL53L1X Time of Flight Distance Measurement
Arduino + VL53L1X Time of Flight Distance Measurement

Time of flight (ToF) is an approximation of the time it takes a traveling wave to come in contact with a surface and reflect back to the source. Time of flight has applications in automotive obstacle detection, resolving geographic surface composition, and computer vision and human gesture recognition. In the application here, the VL53L1X ToF sensor will be used to track the displacement of a ping pong ball falling down a tube. We can predict the acceleration and behavior of a falling ping pong ball by balancing the forces acting on the ball, and ultimately compare the theory to the actual displacement tracked by the time of flight sensor.

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Arduino, Data Analysis, Engineering, PythonJoshua HriskoArduino, VL53L1X, Time of Flight, Time-of-Flight, ToF, Arduino Time of Flight, Arduino Code, Arduino Fluids, Fluid Mechanics, Engineering, Engineer, Time of Flight Experiment, Parts, Arduino Uno, Arduino Uno CH340, Pulse, Ball, Drag, Drag Coefficient, DAta, Data, Data Acquisition, Data Analysis, data, Data Visualization, Force, Force Balance, Raspberry Pi Engineering, Raspberry Pi, Raspberry Pi Analysis, Raspberry Pi Engineer, Code, Programming, Programm, programming, Python, Python pyserial, pyserial, pySerial, Python Data, matplotlib, Python matplotlib, Aero-ThermalComment
Arduino Pitot Tube Wind Speed and Airspeed Indicator - Theory and Experiments
Arduino Pitot Tube Wind Speed and Airspeed Indicator - Theory and Experiments

The pitot tube is a device used to approximate the speed of vehicles traveling by air and water. An in-depth article on NASA's website is dedicated to pitot tubes (also called pitot-static tubes, Prandtl tubes), where it cites the primary application as airspeed indicator on aircraft. For more information on design and limitations of the instrument, I recommend perusing that page. For this tutorial, only the basic theory is explored using Bernoulli's equation and a practical application. An inexpensive pitot tube and a digital differential pressure sensor are used to measure pressure, which is converted to a digital signal using an Arduino board.

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Arduino, Engineering, ProgrammingJoshua HriskoPitot Tube, Arduino, Arduino Velocity, Arduino Speed, Arduino Pitot Tube, Pitot Tube Experiment, Arduino Experiment, Arduino MPXV7002DP, MPXV7002DP, Arduino Project, Arduino ADC, Arduino Analog, Arduino Pressure, Bernoulli, Fluid Mechanics, Arduino Differential, Datasheet, Voltage, Pressure, Speed, Velocity, Bernoulli's Equation, Bernoulli's Principle, Arduino Code, Arduino Fluids, DC Fan, DC Blower, 5V, Velocity Measurement, Drone Pitot Tube, Drone Velocity, Aero-Thermal Comments