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Related Concept Videos

Sound Waves: Resonance01:14

Sound Waves: Resonance

Resonance is produced depending on the boundary conditions imposed on a wave. Resonance can be produced in a string under tension with symmetrical boundary conditions (i.e., has a node at each end). A node is defined as a fixed point where the string does not move. The symmetrical boundary conditions result in some frequencies resonating and producing standing waves, while other frequencies interfere destructively. Sound waves can resonate in a hollow tube, and the frequencies of the sound...
Double Resonance Techniques: Overview01:12

Double Resonance Techniques: Overview

Double resonance techniques in Nuclear Magnetic Resonance (NMR) spectroscopy involve the simultaneous application of two different frequencies or radiofrequency pulses to manipulate and observe two distinct nuclear spins. One important application of double resonance is spin decoupling, which selectively suppresses coupling with one type of nucleus while observing the NMR signal from another nucleus, simplifying the spectrum and enhancing resolution.
Spin decoupling is usually achieved by...
Parallel Resonance01:23

Parallel Resonance

The parallel RLC circuit is an arrangement where the resistor (R), inductor (L), and capacitor (C) are all connected to the same nodes and, as a result, share the same voltage across them. The parallel RLC circuit is analyzed in terms of admittance (Y), which reflects the ease with which current can flow. The admittance is given by:
Concept of Resonance and its Characteristics01:19

Concept of Resonance and its Characteristics

If a driven oscillator needs to resonate at a specific frequency, then very light damping is required. An example of light damping includes playing piano strings and many other musical instruments. Conversely, to achieve small-amplitude oscillations as in a car's suspension system, heavy damping is required. Heavy damping reduces the amplitude, but the tradeoff is that the system responds at more frequencies. Speed bumps and gravel roads prove that even a car's suspension system is not immune...
Resonance and Hybrid Structures02:16

Resonance and Hybrid Structures

According to the theory of resonance, if two or more Lewis structures with the same arrangement of atoms can be written for a molecule, ion, or radical, the actual distribution of electrons is an average of that shown by the various Lewis structures.
Resonance Structures and Resonance Hybrids
The Lewis structure of a nitrite anion (NO2−) may actually be drawn in two different ways, distinguished by the locations of the N–O and N=O bonds.
Gravitation Between Spherically Symmetric Masses01:14

Gravitation Between Spherically Symmetric Masses

The gravitational potential energy between two spherically symmetric bodies can be calculated from the masses and the distance between the bodies, assuming that the center of mass is concentrated at the respective centers of the bodies.

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Related Experiment Video

Updated: Jun 10, 2026

Stimulated Stokes and Antistokes Raman Scattering in Microspherical Whispering Gallery Mode Resonators
12:21

Stimulated Stokes and Antistokes Raman Scattering in Microspherical Whispering Gallery Mode Resonators

Published on: April 4, 2016

Optical resonances and two-sphere systems.

K A Fuller

    Applied Optics
    |August 19, 2010
    PubMed
    Summary
    This summary is machine-generated.

    This study investigates cooperative scattering in bispheres, revealing how interparticle coupling affects light scattering resonances. Findings aid in understanding light interaction with complex particle ensembles.

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    Area of Science:

    • Optics and Photonics
    • Condensed Matter Physics
    • Computational Physics

    Background:

    • Cooperative scattering is crucial for understanding light-matter interactions in particle systems.
    • Morphology-dependent resonances significantly influence scattering properties of spherical particles.

    Purpose of the Study:

    • To theoretically investigate the impact of interparticle coupling on morphology-dependent resonances in bispheres.
    • To analyze scattering properties of ensembles of randomly oriented bispheres, including those with dissimilar monomers.

    Main Methods:

    • Historical review of cooperative scattering research.
    • Theoretical calculations of resonance spectra for various bisphere configurations and orientations.
    • Numerical simulation of an aerosol passing through a microlens focal volume.

    Main Results:

    • Detailed resonance spectra for bispheres with identical, slightly dissimilar, and very different monomers.
    • Scattering properties for randomly oriented bisphere ensembles.
    • Normalized source functions for regions inside and near scatterers.

    Conclusions:

    • Interparticle coupling plays a significant role in modifying morphology-dependent resonances.
    • The study provides a framework for predicting scattering behavior in complex particle systems.
    • Simulations offer insights into experimental observations of resonating aerosols.