Data Portal @ linkeddatafragments.org

Matches in DBpedia 2014 for { <http://dbpedia.org/resource/Damping> ?p ?o. }

• Damping abstract "Damping is an influence within or upon an oscillatory system that has the effect of reducing, restricting or preventing its oscillations. In physical systems, damping is produced by processes that dissipate the energy stored in the oscillation. Examples include Viscous drag in mechanical systems, resistance in electronic oscillators, and absorption and scattering of light in optical oscillators. Damping not based on energy loss can be important in other oscillating systems such as those that occur in biological systems.The damping of a system can be described as being one of the following:Overdamped: The system returns (exponentially decays) to equilibrium without oscillating. Critically damped: The system returns to equilibrium as quickly as possible without oscillating.Underdamped: The system oscillates (at reduced frequency compared to the undamped case) with the amplitude gradually decreasing to zero.Undamped: The system oscillates at its natural resonant frequency (ωo).For example, consider a door that uses a spring to close the door once open. This can lead to any of the above types of damping depending on the strength of the damping. If the door is undamped it will swing back and forth forever at a particular resonant frequency. If it is underdamped it will swing back and forth with decreasing size of the swing until it comes to a stop. If it is critically damped then it will return to closed as quickly as possible without oscillating. Finally, if it is overdamped it will return to closed without oscillating but slower depending on how overdamped it is. Different levels of damping are desired for different types of systems.".
• Damping thumbnail Damped_spring.gif?width=300.
• Damping wikiPageExternalLink damping.
• Damping wikiPageExternalLink calculator-bridging.htm.
• Damping wikiPageID "495563".
• Damping wikiPageRevisionID "604176324".
• Damping hasPhotoCollection Damping.
• Damping subject Category:Control_theory.
• Damping subject Category:Mechanical_vibrations.
• Damping subject Category:Ordinary_differential_equations.
• Damping type Abstraction100002137.
• Damping type Act100030358.
• Damping type Action100037396.
• Damping type Change100191142.
• Damping type Communication100033020.
• Damping type DifferentialEquation106670521.
• Damping type Equation106669864.
• Damping type Event100029378.
• Damping type MathematicalStatement106732169.
• Damping type MechanicalVibrations.
• Damping type Message106598915.
• Damping type Motion100331950.
• Damping type OrdinaryDifferentialEquations.
• Damping type PsychologicalFeature100023100.
• Damping type Statement106722453.
• Damping type Vibration100345926.
• Damping type YagoPermanentlyLocatedEntity.
• Damping comment "Damping is an influence within or upon an oscillatory system that has the effect of reducing, restricting or preventing its oscillations. In physical systems, damping is produced by processes that dissipate the energy stored in the oscillation. Examples include Viscous drag in mechanical systems, resistance in electronic oscillators, and absorption and scattering of light in optical oscillators.".
• Damping label "Amortecimento".
• Damping label "Amortiguamiento".
• Damping label "Amortissement physique".
• Damping label "Damping".
• Damping label "Demping".
• Damping label "Dämpfung".
• Damping label "Tłumienie".
• Damping label "Затухающие колебания".
• Damping label "تخميد".
• Damping label "減衰振動".
• Damping label "阻尼".
• Damping sameAs Tlumené_kmitání.
• Damping sameAs Dämpfung.
• Damping sameAs Amortiguamiento.
• Damping sameAs Amortissement_physique.
• Damping sameAs 減衰振動.
• Damping sameAs Demping.
• Damping sameAs Tłumienie.
• Damping sameAs Amortecimento.
• Damping sameAs m.02hbnr.
• Damping sameAs Q1127660.
• Damping sameAs Q1127660.
• Damping sameAs Damping.
• Damping wasDerivedFrom Damping?oldid=604176324.
• Damping depiction Damped_spring.gif.
• Damping isPrimaryTopicOf Damping.