Add to ORKGMicrogravity Acceleration Measurement System (MAMS) is an ongoing study of the small forces (vibrations and accelerations) on the ISS that result from the operation of hardware, crew activities, as well as dockings and maneuvering. Results will be used to generalize the types of vibrations affecting vibration-sensitive experiments. Investigators seek to better understand the vibration environment on the space station to enable future research
The International Space Station is being developed by NASA and international partners as a versatile...
Described here is the development of and the flight results from the Space Acceleration Measurement ...
This summary report presents the analysis results of some of the processed acceleration data measure...
The Advanced Microgravity Acceleration Measurement Systems (AMAMS) project at the NASA Glenn Researc...
Space Acceleration Measurement System (SAMS-II) is an ongoing study of the small forces (vibrations ...
The International Space Station opens for business in the year 2000, and with the opening, science i...
Experimenters from the fluids, combustion, materials, and life science disciplines all use the micro...
The Microgravity Science and Applications Division's (MSAD) program to record and analyze the Shuttl...
In microgravity, even minute forces can affect experiments: therefore, investigators need to know th...
The Space Acceleration Measurement System (SAMS) is a general-purpose instrumentation system designe...
The Space Acceleration Measurement System (SAMS) is a general purpose instrumentation system designe...
Four microgravity acceleration measurement instruments were included on MSL-1 to measure the acceler...
The conditions present in low-earth-orbit have enabled various scientific investigations to be condu...
Measurement of the microgravity acceleration environment on the International Space Station will be ...
The Space Shuttle acceleration environment is characterized. The acceleration environment is compose...
The International Space Station is being developed by NASA and international partners as a versatile...
Described here is the development of and the flight results from the Space Acceleration Measurement ...
This summary report presents the analysis results of some of the processed acceleration data measure...
The Advanced Microgravity Acceleration Measurement Systems (AMAMS) project at the NASA Glenn Researc...
Space Acceleration Measurement System (SAMS-II) is an ongoing study of the small forces (vibrations ...
The International Space Station opens for business in the year 2000, and with the opening, science i...
Experimenters from the fluids, combustion, materials, and life science disciplines all use the micro...
The Microgravity Science and Applications Division's (MSAD) program to record and analyze the Shuttl...
In microgravity, even minute forces can affect experiments: therefore, investigators need to know th...
The Space Acceleration Measurement System (SAMS) is a general-purpose instrumentation system designe...
The Space Acceleration Measurement System (SAMS) is a general purpose instrumentation system designe...
Four microgravity acceleration measurement instruments were included on MSL-1 to measure the acceler...
The conditions present in low-earth-orbit have enabled various scientific investigations to be condu...
Measurement of the microgravity acceleration environment on the International Space Station will be ...
The Space Shuttle acceleration environment is characterized. The acceleration environment is compose...
The International Space Station is being developed by NASA and international partners as a versatile...
Described here is the development of and the flight results from the Space Acceleration Measurement ...
This summary report presents the analysis results of some of the processed acceleration data measure...