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Propagation of Waves01:07

Propagation of Waves

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When a wave propagates from one medium to another, part of it may get reflected in the first medium, and part of it may get transmitted to the second medium. In such a case, the interface of the two mediums can be considered as a boundary that is neither fixed nor free.
Consider a scenario where a wave propagates from a string of low linear mass density to a string of high linear mass density. In such a case, the reflected wave is out of phase with respect to the incident wave, however the...
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The time response of a linear time-invariant (LTI) system can be divided into transient and steady-state responses. The transient response represents the system's initial reaction to a change in input and diminishes to zero over time. In contrast, the steady-state response is the behavior that persists after the transient effects have faded.
The stability of an LTI system is determined by the roots of its characteristic equation, known as poles. A system is stable if it produces a bounded...
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Relative Stabilities of Alkenes01:59

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The relative stability of alkenes can be determined by comparing their heats of hydrogenation. The lower heat of hydrogenation indicates the more stable alkene.  The three main factors determining the relative stability of alkenes are i) the number of substituents attached to the double-bond carbon atoms, ii) hyperconjugation, and iii) the stereochemistry of the double bond.
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Oscillations about an Equilibrium Position01:04

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Stability is an important concept in oscillation. If an equilibrium point is stable, a slight disturbance of an object that is initially at the stable equilibrium point will cause the object to oscillate around that point. For an unstable equilibrium point, if the object is disturbed slightly, it will not return to the equilibrium point. There are three conditions for equilibrium points—stable, unstable, and half-stable. A half-stable equilibrium point is also unstable, but is named so...
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Stability of Equilibrium Configuration01:23

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Understanding the stability of equilibrium configurations is a fundamental part of mechanical engineering. In any system, there are three distinct types of equilibrium: stable, neutral, and unstable.
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Standing Waves in a Cavity01:28

Standing Waves in a Cavity

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A household microwave and lasers are examples of standing electromagnetic waves in a cavity. When two conducting metal plates are placed parallel at the nodal planes, it creates a cavity where standing waves are formed. The cavity between the two planes is analogous to a stretched string held at the points x = 0 and x = L. Here, the distance 'L' between the two planes must be an integer multiple of half of the wavelength. The wavelengths that satisfy this condition are given by:
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Related Experiment Video

Updated: Aug 2, 2025

Visually Based Characterization of the Incipient Particle Motion in Regular Substrates: From Laminar to Turbulent Conditions
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Stability Criteria for Self-Propagating Reaction Waves in Co/Al Multilayers.

Michael J Abere1, Robert V Reeves2, David E Kittell1

  • 1Sandia National Laboratories, Albuquerque, New Mexico 87123, United States.

ACS Applied Materials & Interfaces
|April 18, 2023
PubMed
Summary

Reactive multilayers exhibit design-dependent instabilities. This study uses inert-mediated reactive multilayers to decouple heat transfer and diffusion, revealing a new stability criterion for Co/Al systems.

Keywords:
energetic materialsreaction instabilitiesreactive metal multilayerssputter depositionthin films

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Area of Science:

  • Materials Science
  • Chemical Engineering
  • Physics

Background:

  • Self-sustained formation reactions in Co/Al multilayers show design-dependent instability.
  • Thin bilayers (<55 nm) yield stable waves, while larger periods react unstably, forming "spin bands."
  • Previous studies linked instability to heat conduction away from the flame front, coupled with bilayer design.

Purpose of the Study:

  • To decouple thermodynamic and kinetic contributions to wave stability in reactive multilayers.
  • To investigate inert-mediated reactive multilayers for controlling reaction dynamics.
  • To establish a stability criterion for Co/Al multilayers based on enthalpy loss.

Main Methods:

  • Utilized inert-mediated reactive multilayers by depositing B2-CoAl within Co/Al reactant layers.
  • Reduced stored chemical energy density in bilayer designs.
  • Analyzed spin instabilities as a function of diluted volume and critical diffusion distance.

Main Results:

  • Decoupled thermodynamic and kinetic factors influencing wave propagation stability.
  • Demonstrated that inert-mediated designs allow spin instabilities to arise with changes in volume dilution and diffusion distance.
  • Identified a stability criterion based on enthalpy loss from the reaction zone.

Conclusions:

  • Inert-mediated reactive multilayers offer a new approach to control reaction propagation.
  • The study provides a clearer understanding of the factors governing stability in Co/Al multilayers.
  • Enthalpy loss is a key factor in determining the stability of these reactive systems.