This is Japan's first supersonic speed aircraft. It is a valuable real machine that allows for you to experience the basic flight principles.
This is the training aircraft with a single reciprocating engine, which was used for pilot training for nearly 30 years and was retired in 2007.
This is a type of electron microscope. We can observe the object when we shed the electron on the object.
This is a type of electron microscope. We scan the sample by a thin electron beam, and construct and display the image from information of the coordinates which is sheded the electron beam on.
This is the equipment for investigating the effects of air resistance when an object is moveed in the air.
This device consists of a multipurpose accelerator and an observation chamber. We can carry out collision experiments with various objects.
This is called gas turbine J-850 and installed in a large test cell. You can measure the operating status of a jet engine in real time.
We can conduct combustion tests on hybrid rockets, which have the advantages of high safety, low cost, high performance, and low pollution.
This is the clean booth for making small artificial satellites, which is called Fed / STD class 1000. *We use it when we manufactured the microbial observation satellite "Teikyo Sat-3".
This is the antenn installed on the roof of the Department of Aerospace Engineering Building and can catch signals sent from artificial satellites such as "Teikyo Sat".
You can use the 3D-CAD software "CATIA"one per person. You can draw figure and calculate strength.
This is General-purpose thermo-Computational Fluid Dyamics simulation software with a proven track record of high reliability and lexibility.
This is simulation software that can analyze a very wide range of physical phenomena such as structure, vibration, heat transfer, electromagnetic field, piezoelectric, acoustic, and thermal fluid. * The image shows the structural analysis of "Teikyo Sat-3".
This is models of rocket and satellite, which were given from JAXA and exhibited in the hangar on the Utsunomiya Campus.
It is the facility that simulates the vacuum state and thermal environment in space. Space chambers and hanging cranes are installated here.