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Stormfighter: The Hawker Typhoon Story

為了解決 jet的問題，作者Carter, Patrick 這樣論述：

The Hawker Typhoon was one of the most powerful fighters built during the Second World War and one of the most effective ground-attack aircraft. In this fascinating book, Patrick Carter describes the development of the Typhoon, the experience of flying it and some of its notable wartime operation

s. The book begins with an introduction to the Hawker Aircraft Company and its chief designer Sir Sidney Camm and his family of ’stormfighters’. Apart from the Typhoon, these included the Tornado, Tempest and Sea Fury. He describes the new design concepts that would make the Typhoon capable of carry

ing twelve Browning machine guns as well as rockets but also the many teething problems that threatened to halt development. Much of the Typhoon’s effectiveness was due to its engine. The Napier Sabre was the powerful piston engine of the Second World War and gave the Typhoon the ability to chase do

wn the latest German fighters such as the Focke-Wolf Fw 190 as well as the V1 flying bomb. However, it is as a devastating ground-strike aircraft before and after D-Day that the Typhoon is best remembered. Having reached the pinnacle of piston-engine power, the Typhoon would be superceded by the new

aircraft of the jet age, including the Gloster E28/39, but its legacy will never be forgotten.

jet進入發燒排行的影片

The Textbook of Nanoneuroscience and Nanoneurosurgery: Second Edition

為了解決 jet的問題，作者 這樣論述：

Babak Kateb, founding chairman of the board of SBMT and Brain Mapping Foundation, Scientific Director of SBMT, and President of Brain Mapping Foundation, West Hollywood, CA, USA, Director of the National Center for Nano-Bio-Electronics, NASA Research Park, Moffet, CA, USA, Senior Editor of SBMT-Neur

oMapping & Therapeutics, Research Scientist, Department of Neurosurgery, Cedars-Sinai Medical Center, Los Angeles, CA, USA, and Visiting Scientist, NASA/Jet Propulsion Laboratory (JPL), Pasadena, CA, USA. John D. Heiss, chair of the Surgical Neurology Branch, National Institute of Neurological Diso

rders and Stroke, National Institutes of Health, and Clinical Professor of Neurosurgery, George Washington University, Washington, DC, USA.＂...a significant contribution to the field of nanoneuroscience and nanoneurosurgery ... the reader will come away with a deeper understanding of the history of

nanotechnology and medicine.＂ --Neuroscience＂This is a monumental first textbook on nanoneurosurgery. ... recommended reading for neurosurgeons, neurologists, neuroradiologists and neuroscientists involved in research on new techniques for application in neurosurgery. Biomedical engineers and variou

s companies developing instruments and devices would benefit from the wealth of information about trends for development of new technologies for neurosurgery.＂ --K. K. Jain, MD, Basel, Switzerland

三相電磁噴流之研究

為了解決 jet的問題，作者鄭力瑋 這樣論述：

摘要電磁噴流是一種運用磁流體力學(Magnetohydrodynamics, MHD)之概念，當給予電極板電能與固定磁場時，便可產生勞倫茲力，藉此推動導電流體。其優點在於致動原理簡易，且不需要依靠複雜的機械結構，便可實現推送之效果。常見的應用在微尺度之微動幫浦與大型船體無槳式推進器上，以往許多研究都著重在電場與磁場之設計與幾何構型的最佳化，而本研究透過實驗探討在電磁噴流中，電極板附帶產生電化學反應而生成氣泡所構成之多相噴流場。並藉由染劑與氣泡之方式發展一流場可視化之方法。本研究透過計算染劑之汙染面積並與數值模擬結果進行比較，發現在低電流時之預測流量結果較為相近。並定義一無因次參數為勞倫茲力雷

諾數(Re_L)，用以描述電磁噴流之流場型態，實驗結果透過定性觀察當勞倫茲力雷諾數(Re_L)大於1600時，噴流型態會發展成紊流的型式。透過無因次分析結果也顯示其噴流擴散角(θ)與氣泡佔比(Ag)有隨Re_L數增加而有上升之趨勢，且在Re_L數大於1600後，因流場型態轉變，擴散角與氣泡佔比也有明顯上升之現象。在最後討論使用鋁電極板對於電磁噴流之影響。