Perbezaan antara semakan "Kejuruteraan ruang angkasa"

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'''Kejuruteraan aeroangkasa''' merupakan satu cabang kejuruteraan yang berkaitan dengan pesawat terbang dan pesawat angkasalepas. Kejuruteraan aeroangkasa sering dirujuk sebagai kejuruteraan aeronautikal, terutama apabila berkaitan dengan kapalterbang, dan kejuruteraan astronautikal apabila berkaitan dengan kapal angkasa. Sebahagian dari asas kejuruteraan aeroangkasa adalah :
<h1>Kejuruteraan aeroangkasa</h1>
 
Kejuruteraan aeroangkasa merupakan satu cabang kejuruteraan yang berkaitan dengan pesawat terbang dan pesawat angkasalepas. Kejuruteraan aeroangkasa sering dirujuk sebagai kejuruteraan aeronautikal, terutama apabila berkaitan dengan kapalterbang, dan kejuruteraan astronautikal apabila berkaitan dengan kapal angkasa. Sebahagian dari asas kejuruteraan aeroangkasa adalah :
 
Aerodynamik - kajian tentang aliran pada objek seperti sayap (lihat juga angkat dan aeronautikal)
 
Bahagian bawah memerlukan terjemahan lanjut.
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More recently, advances in computer technology have enabled the use of computational fluid dynamics to simulate the behavior of a vehicle, reducing time and expense.
More recently, advances
in computer technology have enabled the use of computational fluid dynamics to simulate the
behavior of a vehicle, reducing time and expense.
 
Additionally, aerospace engineering deals with the integration of all components that constitute an aerospace vehicle (subsystems including power, communications, thermal control, life support, etc.) and its life cycle (design, manufacture, testing, operation, disposal), and as such is really a special branch of systems engineering. The operational requirements of aerospace vehicles are often extreme (temperature, pressure, radiation, velocity, life time...), leading to extraordinary challenges and solutions specific to the domain of aerospace systems engineering.
Additionally, aerospace engineering deals with the integration of all components that constitute an
aerospace vehicle (subsystems including power, communications, thermal control, life support,
etc.) and its life cycle (design, manufacture, testing, operation, disposal), and as such is really a
special branch of systems engineering. The operational requirements of aerospace vehicles are
often extreme (temperature, pressure, radiation, velocity, life time...), leading to extraordinary
challenges and solutions specific to the domain of aerospace systems engineering.
 
 
 
Sumbangan Mohamed Yosri Mohamed Yong http://w3.spancity.com/yosri/
 
[[en:Aerospace engineering]]
[[fr:Aérospatiale]]
[[zh:&#33322;&#31354;&#33322;&#22825;&#24037;&#31243;]]
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