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Lift01:23

Lift

554
Lift is a fundamental aerodynamic force that acts perpendicular to the direction of airflow. It plays a central role in achieving and sustaining flight and in stabilizing various vehicles. Lift primarily originates from pressure differences created across surfaces, such as an airfoil. A lower pressure region forms above the wing, while a higher pressure region forms below it, generating an upward force. This differential results from the shape and orientation of the airfoil, enabling the wing...
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pH Scale02:41

pH Scale

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Hydronium and hydroxide ions are present both in pure water and in all aqueous solutions, and their concentrations are inversely proportional as determined by the ion product of water (Kw). The concentrations of these ions in a solution are often critical determinants of the solution’s properties and the chemical behaviors of its other solutes. Two different solutions can differ in their hydronium or hydroxide ion concentrations by a million, billion, or even trillion times. A common means of...
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What is an Experiment?01:12

What is an Experiment?

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An experiment is a planned activity carried out under controlled conditions. The purpose of an experiment is to investigate the relationship between two variables. When one variable causes change in another, we call the first variable the explanatory or independent variable. The affected variable is called the response or dependent variable. In a randomized experiment, the researcher manipulates values of the explanatory variable and measures the resulting changes in the response variable. The...
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Scaling01:26

Scaling

596
In designing and analyzing filters, resonant circuits, or circuit analysis at large, working with standard element values like 1 ohm, 1 henry, or 1 farad can be convenient before scaling these values to more realistic figures. This approach is widely utilized by not employing realistic element values in numerous examples and problems; it simplifies mastering circuit analysis through convenient component values. The complexity of calculations is thereby reduced, with the understanding that...
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Thomson's e/m Experiment01:19

Thomson's e/m Experiment

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In a beam of charged particles created by a heated cathode, the particles move at different speeds. However, many applications need a beam with uniform particle speeds. An arrangement known as a velocity selector uses electric and magnetic fields to pick particles with a particular speed from the beam.
A particle with charge q, speed v, and mass m enters an area from the top, where the magnetic and electric fields are perpendicular both to the particle's motion and to one another. The magnetic...
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Controls in Experiments01:13

Controls in Experiments

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When conducting an experiment, it is crucial to have control to reduce bias and accurately measure the dependent variables. It also marks the results more reliable. Controls are elements in an experiment that have the same characteristics as the treatment groups but are not affected by the independent variable. By sorting these data into control and experimental conditions, the relationship between the dependent and independent variables can be drawn. A randomized experiment always includes a...
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Related Experiment Video

Updated: Feb 9, 2026

Medium-scale Preparation of Drosophila Embryo Extracts for Proteomic Experiments
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At-scale lift experiments modeling dragonfly forewings.

Peter A K Szabo1, Gabriele M T D'Eleuterio

  • 1Institute for Aerospace Studies, University of Toronto, Toronto, ON, M3H 5T6, Canada.

Bioinspiration & Biomimetics
|June 1, 2018
PubMed
Summary

Researchers created an artificial dragonfly wing that mimics Sympetrum sanguineum flight. The study

Area of Science:

  • Robotics and Bio-inspired Engineering
  • Aerodynamics and Fluid Mechanics

Background:

  • Dragonfly flight is complex and efficient, inspiring robotic designs.
  • Previous studies often used simplified models or lacked at-scale experimental validation.

Purpose of the Study:

  • To experimentally investigate the lift performance of an artificial platform at the scale of Sympetrum sanguineum.
  • To validate computational models of dragonfly wing aerodynamics.

Main Methods:

  • Custom design and fabrication of an artificial dragonfly wing platform and lift sensor.
  • Utilized a piezoelectric bending-beam actuator and carbon-fiber transmission for flapping motion.
  • Replicated Sympetrum sanguineum flapping kinematics using polyester film wings with carbon-fiber support.

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Main Results:

  • Achieved the first at-scale, fully transient measurements of artificial dragonfly forewings.
  • Generated lift curves that quantitatively and qualitatively validate existing 2D and 3D computer simulations.
  • Predicted lift, accounting for hindwings, is sufficient for dragonfly hovering.

Conclusions:

  • The artificial dragonfly wing successfully replicates key aspects of natural flight.
  • Experimental data supports the accuracy of current computational models for dragonfly aerodynamics.
  • This research advances bio-inspired robotics and micro-air vehicle design.