Saturday , June 25 2022

Mars Home New & # 39; & # 39 Large Sandbox;



[ad_1]

B & # 39; Insight safely on the surface of & # 39; Mars, mission
team Laboratory & # 39; the Jet Propulsion & # 39; NASA f & # 39; Pasadena, California, is busy
learn more about the site & # 39; landing & # 39; space. They knew when Insight
landed 26 & # 39; November that the spacecraft had lost the target, plain & # 39; lava
called Elysium Planitia. Now they determined that the vehicle put a little
inclined (about 4 degrees) in a krater & # 39; low impact and & # 39; dust and sand known
as "empty." Insight has been modified to operate on face
b & # 39; inclination to 15 degrees.

"The science team was hoping to land in the sand
Area with little rocky because we chose the site & # 39; landing, so we can not be happy, "
said project manager Tom Hoffman Insight & # 39; JPL. "M & # 39; no landing
pads or runways on Mars, so to fall in & # 39; area is basically a big
Sandbox without large rocks should make the deployment of & # 39; the easiest instrument and
Providing a great place for our mole to start emptying. "

The feature of roasting grade and slope in landing
and safety are also important to determine whether it can succeed in its Insight
mission after landing. The rocks and slopes can affect the ability of & # 39; Insight to put
the probe heat flow – also known as "mole", or HP3
sismometru and ultra-sensitive, known as SEIS, on the surface of & # 39; Mars.

Convening on a steep slope in –
the wrong direction also can & # 39; jeopardize the ability of Space to obtain adequate
production & # 39; energy from its two solar arrays, while landing near the large rocks can & # 39;
ipprevjenew the Insight to be able to & # 39; open one of those arrangements. In fact,
two arrays fully deployed shortly after landing.

The science team of Insight
preliminary assessment of the photographs & # 39; now about the area & # 39; landing
suggests that the area in the immediate vicinity of Lander populated only
little rock. Images b & # 39; higher resolution is expected to be received during the start
day, after releasing the Insight clear plastic dust keep the optics
camera b & # 39; both cameras & # 39; safe space during landing.

"We are looking forward to a higher definition
pictures to confirm this preliminary assessment, "said Bruce & # 39; JPL
Banerdt, principal investigator of & # 39; Insight. "If these little images – it & # 39;
reducing the dust cover on the resolution – are accurate, it is well appropriate for both
deployment & # 39; instruments and penetration mole of heat flux under our face
experiment. "

once
sites on the Martian surface were carefully chosen for two main
instruments, the team will stop and start initial testing of mechanical
arm will place them there. The images & # 39; above shows the grapple at the end of & # 39;
arm moved slightly, as expected, after awaiting resolution.

data
reduced from landing also indicates that during its first full day in
Mars, the spacecraft & # 39; Insight to work with more power generated by power
any & # 39; previous vehicle on the surface of & # 39; Mars.

"She
it is great to have the first "record outside world" in our first full day in the first & # 39; Mars, "
Hoffman said. "But even better by achieving generation & # 39; more electricity
any task ahead is what it represents to carry out our future
tasks & # 39; engineering. The 4,588 watt hours produced during sol 1 means that we
Currently we have more than enough juice to perform these tasks and we & # 39; forward
with our science mission. "

launched
from Vandenberg Air Force Base in & # 39; & # 39 California 5; May, Insight will
operates in surface Martja for one year, along with & # 39; 40 Martian days, or SOLS – the
equivalent to almost two years of World. Insight will study the deep interior
a & # 39; Mars to learn how all the celestial bodies with & # 39; rock surfaces, including the World
and the Moon formed.

JPL
Insight manages Directorate for Science Mission NASA. Insight is part
Program & # 39; NASA Discovery, managed by Marshall Space Flight Center & # 39; agency
f & # 39; Huntsville, Alabama.

A
number & # 39; European partners, including the National Center & # 39; Etudes of & # 39; France
Spatiales (CNES) and the German Aerospace Center (DLR), are supporting the program & # 39;
Mission & # 39; Insight. CNES, and the Institut de physique du Globe de Paris (IPGP)
unless the instrument SEIS, b & # 39; significant contributions from Max
Planck Institute for Solar System Research (MPS) in Germany, Switzerland
Institute of Technology (ETH) in Switzerland, Imperial College and Oxford
University in the UK, and JPL. DLR provided HP3
instrument, b & # 39; significant contributions from the & # 39; Space Research Center (CBK)
a & # 39; the Polish Academy of Sciences and Astronika in Poland. Center de Spain
Astrobiología (CAB) has provided wind sensors.

For more information about
Insight, visit:

https://www.nasa.gov/insight/

For more information about
The missions & # 39; Mars NASA, go to:

https://www.nasa.gov/mars

News Media Contact

DC Agle
Laboratory & # 39; Propulsion & # 39; Jet, Pasadena, Kalif.
818-393-9011
[email protected]

Dwayne Brown / Joanna Wendel
The NASA Headquarters, Washington
202-358-1726 / 202-358-1003
[email protected] / [email protected]

2018-278

[ad_2]
Source link