Relevant bibliographies by topics / Cogwheel

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Cogwheel'

Author: Grafiati
Published: 4 June 2021
Last updated: 30 May 2022

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Journal articles on the topic "Cogwheel"

1

Ghiglione, Paolo, Roberto Mutani, and Adriano Chiò. "Cogwheel Rigidity." Archives of Neurology 62, no. 5 (May 1, 2005): 828. http://dx.doi.org/10.1001/archneur.62.5.828.

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Anstis, S. "The cogwheel illusion." Journal of Vision 3, no. 9 (March 16, 2010): 170. http://dx.doi.org/10.1167/3.9.170.

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Levitt, Malcolm H., P. K. Madhu, and Colan E. Hughes. "Cogwheel Phase Cycling." Journal of Magnetic Resonance 155, no. 2 (April 2002): 300–306. http://dx.doi.org/10.1006/jmre.2002.2520.

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Della Grotta, Lynn M., Raymond B. Dyer, and Brenda L. Holbert. "The “cogwheel” sign of hydrosalpinx." Abdominal Radiology 44, no. 10 (July 25, 2019): 3486–87. http://dx.doi.org/10.1007/s00261-019-02144-7.

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Hughes, Colan E., Marina Carravetta, and Malcolm H. Levitt. "Some conjectures for cogwheel phase cycling." Journal of Magnetic Resonance 167, no. 2 (April 2004): 259–65. http://dx.doi.org/10.1016/j.jmr.2004.01.001.

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Braun, O. M., and Erio Tosatti. "Molecular rolling friction: the cogwheel model." Journal of Physics: Condensed Matter 20, no. 35 (August 11, 2008): 354007. http://dx.doi.org/10.1088/0953-8984/20/35/354007.

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Gisbert, Yohan, Seifallah Abid, Gaëlle Bertrand, Nathalie Saffon-Merceron, Claire Kammerer, and Gwénaël Rapenne. "Modular synthesis of pentaarylcyclopentadienyl Ru-based molecular machines via sequential Pd-catalysed cross couplings." Chemical Communications 55, no. 97 (2019): 14689–92. http://dx.doi.org/10.1039/c9cc08384g.

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Abid, Seifallah, Yohan Gisbert, Mitsuru Kojima, Nathalie Saffon-Merceron, Jérôme Cuny, Claire Kammerer, and Gwénaël Rapenne. "Desymmetrised pentaporphyrinic gears mounted on metallo-organic anchors." Chemical Science 12, no. 13 (2021): 4709–21. http://dx.doi.org/10.1039/d0sc06379g.

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Jesacher, Alexander, Severin Fr�hapter, Stefan Bernet, and Monika Ritsch-Marte. "Size selective trapping with optical "cogwheel" tweezers." Optics Express 12, no. 17 (2004): 4129. http://dx.doi.org/10.1364/opex.12.004129.

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Abrams, A., and D. Braff. "Lithium Induced Cogwheel Rigidity: Treatment with Amantadine." Pharmacopsychiatry 13, no. 04 (March 13, 2008): 240–42. http://dx.doi.org/10.1055/s-2007-1019637.

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Dissertations / Theses on the topic "Cogwheel"

1

Мізенко, І. С. "Зміцнення поверхні зубчастого колеса редуктора за допомогою проведення ізотермічної цементації." Thesis, Сумський державний університет, 2013. http://essuir.sumdu.edu.ua/handle/123456789/31429.

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Зубчасте колесо є складовою частиною циліндричного одноступінчатого вертикального редуктора. Призначення редуктора - зниження кутової швидкості і підвищення обертального моменту відомого валу в порівнянні з валом ведучим. При виборі матеріалів зубчастих коліс необхідно забезпечувати високу міцність зубів на вигин, також високу стійкість поверхневих шарів матеріалу зубів проти втомного викрашування, зносу, заїдання і т.д. При цитуванні документа, використовуйте посилання http://essuir.sumdu.edu.ua/handle/123456789/31429
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Vyhnanovský, Jaroslav. "Návrh technologie výroby ozubeného kola z plastu." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2015. http://www.nusl.cz/ntk/nusl-231960.

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This project has been developed within the master study of Engineering Technology and Industrial Management a design of manufacturing technology for plastic cogwheel is introduced. The cogwheel will be produced by plastic injection moulding. POM material with a trade name Delrin 100 NC010 from DuPont Company will be used. An injection mould is a tool for producing a plastic cogwheel using injection moulding technology. Production will take place on the machine Allrounder 420 C Golden Edition 1000-290 from Arburg German Company headquartered in Loßburg, where the seat of parent company is situated.
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Воробйов, С. П., Н. С. Равська, and А. В. Карпенко. "Вплив параметрів зубчастого колеса та торцевої головки на похибки профілю циліндричних арочних коліс." Thesis, Сумський державний університет, 2014. http://essuir.sumdu.edu.ua/handle/123456789/38048.

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Зубчасті колеса широко розповсюджені в машинобудуванні. Серед них найбільшого розповсюджені циліндричні зубчасті колеса, що в свою чергу підрозділяються на прямозубі, косозубі, шевронні, арочні та ін. Серед існуючих видів передач, незважаючи на ряд переваг, найменшим поширеними є арочні зубчасті передачі. Одним з перспективних напрямків розвитку зубчастих передач – це застосування циліндричних арочних передач. Ці зубчасті передачі мають більшу навантажувальну здатність та плавність роботи, сприяють зменшенню шуму та вібрацій, дозволяють керувати розподіленням навантаження на зуб, можуть самовстановлюватись під навантаженням [1]. Розширення застосування цих передач – це шлях до підвищення довговічності, зниження металоємності та собівартості механізмів та машин.
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Клочко, А. А., and Ю. А. Синица. "Улучшение рабочих характеристик среднемодульных зубчатых передач, полученных на зубофрезерном станке с числовым программным управлением." Thesis, Сумский государственный университет, 2017. http://essuir.sumdu.edu.ua/handle/123456789/61466.

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В настоящее время актуальной является задача снижения уровня шумов зубчатых передач в связи с ужесточением и нормированием требований к уровню шумов автотракторной техники. По традиционной технологии до последнего времени практически все зубчатые колеса грузовых автомобилей, тракторов и сельхозмашин в странах СНГ изготавливались без зубошлифования. Требуемая точность зубчатых колес устанавливалась отраслевыми стандартами, которые, позволяли изготавливать зубчатые колеса на отечественном оборудовании используя инструмент отечественного производства.
В настоящее время актуальной является задача снижения уровня шумов зубчатых передач в связи с ужесточением и нормированием требований к уровню шумов автотракторной техники. По традиционной технологии до последнего времени практически все зубчатые колеса грузовых автомобилей, тракторов и сельхозмашин в странах СНГ изготавливались без зубошлифования. Требуемая точность зубчатых колес устанавливалась отраслевыми стандартами, которые, позволяли изготавливать зубчатые колеса на отечественном оборудовании используя инструмент отечественного производства.
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Ємельяненко, Сергій Сергійович, Сергей Сергеевич Емельяненко, Serhii Serhiiovych Yemelianenko, and И. В. Михно. "Исследование точности изготовления деталей на зубообрабатывающих станках, работающих методом обкатки." Thesis, Сумский государственный университет, 2017. http://essuir.sumdu.edu.ua/handle/123456789/62351.

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Работоспособность современного оборудования в значительной мере зависит от качества изготовления передач, в том числе и зубчатых передач. Качество зубчатых передач влияет на долговечность работы оборудования, его бесшумность работы при высоких скоростях и точность. Как правило, обеспечение долговечности и бесшумности работы зубчатых передач предопределяется точностью их изготовления и сборки. Следовательно, изготовление точных зубчатых колес является очень важным для современного машиностроения.
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Осадчий, Ігор Олегович, Игорь Олегович Осадчий, Ihor Olehovych Osadchyi, and А. М. Вощенко. "Об испытаниях зубчатых колес из композиционных материалов." Thesis, Сумский государственный университет, 2014. http://essuir.sumdu.edu.ua/handle/123456789/39662.

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Для зубчатых колес из неметаллических материалов свойственно уменьшение шума, самосмазывание, низкий вес. Это обуславливает тенденцию к замене металлических колес полимерными. Главным недостатком шестерен на полимерной основе является низкая прочность. Зубчатые колеса из композиционных материалов позволяют решить вопрос низкой прочности полимерных шестерен.
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Катькало, Б. И. "Оценка нагрузочной способности зубчатых колес из композиционных материалов." Thesis, Сумский государственный университет, 2014. http://essuir.sumdu.edu.ua/handle/123456789/39653.

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В период развития новых технологий вопрос о поисках материалов, которые могут заменить металлы, стоит в первом ряду. Одними из альтернативных материалов являются композиционные материалы. Они имеют в несколько раз меньшую плотность при близкой к металлам прочности, что уменьшает их вес к материалам аналогам.
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Коротун, Микола Миколайович, Николай Николаевич Коротун, Mykola Mykolaiovych Korotun, and О. А. Доля. "Відновлення евольвентної поверхні крупномодульного зубчастого колеса." Thesis, Сумський державний університет, 2014. http://essuir.sumdu.edu.ua/handle/123456789/39973.

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Обробка евольвентної поверхні крупномодульних косозубих зубчастих коліс після ремонту є актуальною задачею в машинобудуванні. Недоліком відомих способів обробки після ремонту таких коліс є те, що для відтворення гвинтової лінії, розміщеної на евольвентному профілі важких крупномодульних косозубих коліс потрібні важкі верстати, які можуть знаходитися на значній відстані від колеса, що потребує ремонту. Для вирішення цієї проблеми нами запропонований накладний верстат для фрезерування гвинтової лінії, розміщеної на евольвентному профілі крупномодульного косозубого колеса шляхом використання при цьому копіра, що дозволяє відтворювати існуючу гвинтову лінію.
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Books on the topic "Cogwheel"

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Akutagawa, Ryunosuke. Hell screen. Cogwheels. A fool's life. Hygiene, Colo: Eridanos Press, 1987.

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Akutagawa, Ryunosuke. Hell screen ; Cogwheels ; A fool's life. Hygiene, CO: Eridanos Press, 1987.

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Schocken, Wolfgang Alexander. The calendar of the Mayas: Broken cogwheels of eternity. [Boston, MA?]: W.A. Schocken, 1986.

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Cogwheel Brain, The. Abacus, 2001.

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Swade, Doron. The Cogwheel Brain. Little, Brown, 2000.

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Wright, aka Linseed. The Cogwheel Window Connection: How to Detach Unwanted Pressure. CreateSpace Independent Publishing Platform, 2014.

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Kaplan, Tamara, and Tracey Milligan. Movement Disorders 1: Tourette’s Syndrome, Essential Tremor, and Parkinson’s Disease (DRAFT). Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190650261.003.0011.

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The video in this chapter explores movement disorders, and focuses on Tourette’s Syndrome, Essential tremor, and Parkinson’s Disease. It outlines the characteristics of each, such as motor and vocal tics in Tourette’s Syndrome, postural or kinetic tremor in Essential tremor, and the four hallmark features of Parkinson’s Disease (bradykinesia, resting tremor, cogwheel rigidity, and postural instability).
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Akutagawa, Ryunosuke. Cogwheels. Mosaic Press, 2007.

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de Bie, Robertus M. A. The Stand-Alone Tremor. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780190607555.003.0022.

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Essential tremor is defined as long-standing bilateral hand/arm tremor that is visible and may occur persistently during posture-holding, simple movements, and action. The tremor may be slightly asymmetrical. Other areas of the body that may be affected are head and neck (most frequently), the voice, and legs. Head tremor without limb tremor is accepted as essential tremor, although this definition remains controversial. Essential tremor is a progressive disease and manifests at any age. Tremor in Parkinson’s disease mostly starts unilaterally. A no–no or yes–yes tremor of the head indicates essential tremor, whereas a tremor of the jaw or tongue fits with Parkinson’s disease. The cogwheel phenomenon may also occur in patients with essential tremor. Toxins and medications as the cause for postural/kinetic tremor must be ruled out. Pharmacological options for essential tremor can be unsatisfactory.
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Akutagawa, Ryunosuke. Cogwheels and Other Stories. Borgo Pr, 1995.

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Book chapters on the topic "Cogwheel"

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Koteš, Peter, Martin Vavruš, and Martin Moravčík. "Diagnostics and Evaluation of Bridge Structures on Cogwheel Railway." In Lecture Notes in Civil Engineering, 93–101. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-91877-4_11.

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’t Hooft, Gerard. "More on Cogwheels." In Fundamental Theories of Physics, 129–34. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-41285-6_12.

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Dietrich, Arne. "The Cogwheels of Culture." In How Creativity Happens in the Brain, 66–92. London: Palgrave Macmillan UK, 2015. http://dx.doi.org/10.1057/9781137501806_4.

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’t Hooft, Gerard. "The Continuum Limit of Cogwheels, Harmonic Rotators and Oscillators." In Fundamental Theories of Physics, 135–39. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-41285-6_13.

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"Cogwheel." In Encyclopedic Dictionary of Archaeology, 300. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-58292-0_30723.

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Chiò, Adriano, and Andrea Calvo. "Camillo Negro." In The Birth of Modern Neuroscience in Turin, 121–30. Oxford University Press, 2022. http://dx.doi.org/10.1093/med/9780190907587.003.0010.

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Camillo Negro is considered one of the most outstanding Italian neurologists ever. Between the 19th and the 20th century, he founded the Neurological School in Turin. He was one of the precursors of the separation of neurology and psychiatry, a forerunner of the modern communication of scientific discoveries through the establishment of several scientific journals, as well as his famous movie Neuropatologia. Negro was also a keen scientist and authored more than one hundred papers. He described the three Negro’s signs: (1) the cogwheel rigidity in Parkinson’s disease, (2) the bulbo-palpebral event in peripheral palsy of the facial nerve, and (3) the meso-rotuleus sign associated with the pyramidal deficit. He also supported the doctrine proposed by Santiago Ramón y Cajal in the section titled, “The Theory of Neurons,” of the manual Patologia e Clinica del Sistema Nervoso. Finally, he mentored many students, including Carlo Angela, Mario Gozzano, and Luisa Levi.
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Lo, Christian, and Signy Irene Vabo. "Administrasjonsparadokset." In Folkevalgt og politisk leder, 62–94. Cappelen Damm Akademisk/NOASP, 2020. http://dx.doi.org/10.23865/noasp.80.ch3.

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In this chapter, we discuss the consequences of what we have coined as the “administrative paradox”. The administrative paradox denotes the tensions that occurs when the normative expectation that political leaders should have a leading role in policy processes meets the practical reality that administrative actors are often the ones to set the political agenda. In the chapter, we discuss the modern-day relevance of classical ideas about the relation between politics and administration and, also, explore some recent attempts made by Norwegian municipalities to innovate political leadership in ways that affect this relation. A central theme in our discussion is the consequences of the so-called “hour-glass model” that describes a separation of politics and administration where the two spheres are joined through the roles of the mayor and the chief municipal executive. While the hour-glass model has had a profound impact on the organization of political and administrative leadership in Norwegian municipalities for close to three decades, we argue that the model is now due for a replacement. In its place, we suggest an alternative model that provides a more accurate description of how political leaders maintain a wider set of interfaces and that admits politicians a role also in the early phases of policy development. We have called this alternative model the “cogwheel-model”. In a brief and subsequent chapter, a Norwegian Chief Executive reflects on the interplay between politics and administration.
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Keats, Jonathon. "Steampunk." In Virtual Words. Oxford University Press, 2010. http://dx.doi.org/10.1093/oso/9780195398540.003.0023.

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“I wish to God these calculations had been executed by steam,” exclaimed the British polymath Charles Babbage to his colleague John Herschel one day in 1821, as they worked together to correct a batch of mathematical tables riddled with errors. With that outburst, according to his memoirs, Babbage envisioned the first computer. The machine he conceived was colossal, a cogwheel behemoth comprising twenty-five thousand parts, planned to measure seven feet long and to weigh fifteen tons. The British government invested £17,500 in it—the cost of twenty-two new locomotives—yet after eleven years of hard labor Babbage’s unfinished difference engine was abandoned. But what if construction had succeeded? That’s the question sci-fi writers William Gibson and Bruce Sterling asked a century and a half later, their answer serving as the premise of The Difference Engine, a novel in which the information age overtakes Victorian England. As a work of speculative fiction the book was a deep meditation on the interdependence of technology and society, destined to have an intellectual impact nearly as significant as Gibson’s breakthrough Neuromancer, in which he introduced the idea of cyberspace. Also like Neuromancer, arguably the first cyberpunk novel, The Difference Engine was to spawn a vast subculture. Steampunk, as the cult was dubbed, was actually named several years before The Difference Engine was published, in a 1987 letter to the genre magazine Locus, penned by the sci-fi writer K. W. Jeter. “Personally, I think Victorian fantasies are going to be the next big thing, as long as we can come up with a fitting collective term,” he wrote. “Something based on the appropriate technology of that era; like ‘steampunks,’ perhaps.” James P. Blaylock, another writer of these “Victorian fantasies,” seconded Jeter’s suggestion in the following issue, and the subgenre was sufficiently established by the time The Difference Engine was published in 1990 that the Locus editors decreed it “ not steampunk, because it is a work of hard sf.”
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Christofi, Gerry, and Guy Leschziner. "Neurology." In The Pocketbook for PACES. Oxford University Press, 2012. http://dx.doi.org/10.1093/oso/9780199574186.003.0014.

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The neurology section of the PACES examination is often the major cause of (unnecessary!) anxiety for MRCP candidates. The key is to approach the patient in a logical fashion. Some neurology cases are simply an exercise in pattern recognition – noticing the frontal balding and ptosis of myotonic dystrophy, the distal wasting and pes cavus of Charcot–Marie–Tooth disease, for example. However, in those cases without obvious clues to the underlying diagnosis, a clear systematic approach will usually pay dividends. When faced with a neurological problem, the first question that should be posed is the site of the lesion. During the course of the examination, identify signs that might help in localization: • Cortex: signs of dysfunction of higher cognitive function. • Subcortical: upper motor neuron (UMN) signs (hypertonia, pyramidal pattern of weakness, hyper-reflexia, extensor plantars), slowness of thought. • Basal ganglia: cogwheel rigidity, resting tremor, bradykinesia, postural instability, dyskinesias, dystonias. • Brainstem: cranial nerve abnormalities with contralateral UMN signs. • Cerebellum: gait ataxia, nystagmus, finger-nose ataxia, past-pointing. • Spinal cord: bilateral UMN signs, presence of a sensory level. • Nerve root: lower motor neuron (LMN) signs (wasting, weakness, hyporeflexia, sensory loss) in a myotomal or dermatomal distribution. • Single or multiple nerve/plexus: LMN signs that are focal, and are not consistent with a nerve root lesion. • Polyneuropathy: LMN signs, more pronounced distally, affecting the legs more than the hands, diminished reflexes, sensory signs. • Neuromuscular junction: weakness without sensory involvement or significant wasting, usually but not invariably proximal, which fluctuates (either with time of day or during the course of the examination). • Muscle: wasting and weakness with normal reflexes and sensation. Once the lesion has been localized, consider the disease processes that commonly affect that site. Clues may be obtained from the history, if you are permitted to ask questions. The most helpful aspect of the history is usually the speed of onset: • Seconds: electrical disturbance (i.e. epilepsy), trauma. • <5 minutes: infarction. • > 5 minutes: migraine, haemorrhage. • Minutes–hours: infection, inflammation, drugs. • Hours–days: infection, inflammation, nutritional, drugs.
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"Yes, It Can Be Done with Cogwheels." In Quantum Computing Without Magic. The MIT Press, 2008. http://dx.doi.org/10.7551/mitpress/7724.003.0009.

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Conference papers on the topic "Cogwheel"

1

Bayer, J. "DAMAGE DETECTION USING A COGWHEEL LOAD – NUMERICAL CASE STUDY." In Engineering Mechanics 2020. Institute of Thermomechanics of the Czech Academy of Sciences, Prague, 2020. http://dx.doi.org/10.21495/5896-3-074.

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2

Bayer, J. "Modeling the moving cogwheel load --- Analysis using Ansys & MATLAB." In Engineering Mechanics 2022. Institute of Theoretical and Applied Mechanics of the Czech Academy of Sciences, Prague, 2022. http://dx.doi.org/10.21495/51-2-33.

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3

Ortner, Michael, Marcelo Ribeiro, Michael Seger, and Armin Satz. "Guidelines for cogwheel design optimized for back-bias speed sensor applications." In 2014 International Conference on Industrial Automation, Information and Communications Technology (IAICT). IEEE, 2014. http://dx.doi.org/10.1109/iaict.2014.6922101.

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4

Librovich, B. V., and A. F. Nowakowski. "Dynamic Behaviour of Rotary Vane Engines With One, Two and Four Work Units." In ASME 7th Biennial Conference on Engineering Systems Design and Analysis. ASMEDC, 2004. http://dx.doi.org/10.1115/esda2004-58608.

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Abstract:
A mathematical model to analyse the dynamic behaviour of a novel rotary vane engine (RVE) is introduced in this paper. The RVE have a number of advantages compare to a majority of other reciprocating engine types. The main advantages are a simple structure and the small number of moving parts. The geometrical structure and dynamical behaviour of engines with a different number of work units is considered in detail. This has been examined through a study of torque transmission with a particular reference to how this is affected by the non-circular geometry of gear pitch curves. A possible method for balancing of asymmetric cogwheels have been proposed as well. The analysis concludes that by using an appropriate design and arrangement of cogwheels and all moving parts, vibration due to impulsive gas torque can be attenuated.
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