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The Wave Nature of Light02:12

The Wave Nature of Light

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The nature of light has been a subject of inquiry since antiquity. In the seventeenth century, Isaac Newton performed experiments with lenses and prisms and was able to demonstrate that white light consists of the individual colors of the rainbow combined together. Newton explained his optics findings in terms of a "corpuscular" view of light, in which light was composed of streams of extremely tiny particles traveling at high speeds according to Newton's laws of motion.
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Graphical and Analytic Representation of Sinusoids01:20

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Analyzing two sinusoidal voltages with equal amplitude and period but different phases on an oscilloscope, an instrument used to display and analyze waveforms, involves a three-step process.
The first step is measuring the peak-to-peak value, which is twice the amplitude of the sinusoid. This provides information about the maximum voltage swing of the waveform.
Secondly, the period and angular frequency are determined. The period is the time taken for one complete cycle of the waveform, while...
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Velocity and Position by Graphical Method01:34

Velocity and Position by Graphical Method

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Velocity and position can be calculated from the known function of acceleration as a function of time. The total area under the acceleration-time graph and the velocity-time graph gives the change in velocity and position, respectively. In the case of an airplane, its acceleration is tracked using the inertial navigation system. The pilot provides the input of the airplane's initial position and velocity before takeoff. The inertial navigation system then uses the acceleration data to...
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State Space Representation01:27

State Space Representation

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The frequency-domain technique, commonly used in analyzing and designing feedback control systems, is effective for linear, time-invariant systems. However, it falls short when dealing with nonlinear, time-varying, and multiple-input multiple-output systems. The time-domain or state-space approach addresses these limitations by utilizing state variables to construct simultaneous, first-order differential equations, known as state equations, for an nth-order system.
Consider an RLC circuit, a...
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Space Trusses01:25

Space Trusses

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A space truss is a three-dimensional counterpart of a planar truss. These structures consist of members connected at their ends, often utilizing ball-and-socket joints to create a stable and versatile framework. The space truss is widely used in various construction projects due to its adaptability and capacity to withstand complex loads.
At the core of a space truss lies the fundamental unit known as the tetrahedron. This structure is composed of six members that form a three-dimensional shape...
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Vector Algebra: Graphical Method01:10

Vector Algebra: Graphical Method

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Vectors can be multiplied by scalars, added to other vectors, or subtracted from other vectors. The vector sum of two (or more) vectors is called the resultant vector or, for short, the resultant.
We use the laws of geometry to construct resultant vectors, followed by trigonometry to find vector magnitudes and directions. For a geometric construction of the sum of two vectors in a plane, we follow the parallelogram rule. Suppose two vectors are at arbitrary positions. Translate either one of...
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Related Experiment Video

Updated: Jan 27, 2026

Scattering And Absorption of Light in Planetary Regoliths
11:34

Scattering And Absorption of Light in Planetary Regoliths

Published on: July 1, 2019

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Free-space micro-graphics with electrically driven levitated light scatterers.

Johann Berthelot, Nicolas Bonod

    Optics Letters
    |March 16, 2019
    PubMed
    Summary
    This summary is machine-generated.

    Researchers developed a new 3D free-space volumetric display using levitating particles. This novel approach uses electrically controlled particle manipulation for high-speed image generation, offering true 3D visuals.

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    Area of Science:

    • Optics and Photonics
    • Display Technology
    • Micro/Nano Manipulation

    Background:

    • Volumetric displays offer true 3D imaging without viewing angle limitations.
    • Controlling levitating particles at high speeds is crucial for real-time display applications.
    • Existing methods for particle manipulation face challenges in speed and accuracy.

    Purpose of the Study:

    • To demonstrate a novel method for creating free-space volumetric displays.
    • To achieve high-speed, precise 3D trajectory control of levitating particles.
    • To explore the potential of optical scattering from manipulated particles for image generation.

    Main Methods:

    • Utilizing electrically driven planar Paul traps (PPTs) for particle manipulation.
    • Employing AC and DC electrical voltages to control a single gold colloid particle in 3D.
    • Modulating electric voltages at high frequencies (150 kHz) for rapid particle displacement.

    Main Results:

    • Demonstrated precise 3D trajectory control of a levitating gold particle.
    • Achieved high-speed particle displacement using modulated electric fields.
    • Generated proof-of-concept free-space graphics through optical scattering of the scanned particle.

    Conclusions:

    • Electrically driven PPTs enable accurate and high-speed control of levitating particles for display applications.
    • This technique provides a viable pathway for developing true 3D free-space volumetric displays.
    • The method offers a new paradigm for generating dynamic 3D visuals without reliance on interference or fixed viewing angles.