Curiosity gives way to InSight as new NASA lander survives impact on Mars

Rachel Bell — Fri, 07 Dec 2018 14:00:24 +0000

Applause and shouts of joy exploded from mission control members Nov. 26 at the Jet Propulsion Laboratory in Pasadena, California. They were celebrating the payoff from years of work – the touchdown of InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport mission) on Martian soil after a seven-month long journey.

Tension amongst NASA directors and watchful members of the public can be attributed to the “seven minutes of terror” it took the lander to hit the ground after entering Mars’ atmosphere.

NASA’s latest interplanetary probe has sent its first selfie from the barren surface of Mars. The photograph shows part of the probe and the Martian surface in the distance.

Due to the millions of miles between Earth and Mars, scientists received all information about the probe’s wellbeing on a more than eight-minute delay.

Before InSight, NASA had successfully landed seven other crafts on the planet’s surface, but InSight is the first dedicated to studying what lies beneath.

According to NASA, “the InSight mission seeks to uncover how a rocky body forms and evolves to become a planet by investigating the interior structure and composition of Mars. The mission will also determine the rate of Martian tectonic activity and meteorite impacts.”

NASA has described the mission as a checkup of the red planet’s pulse and temperature over the next two years. Among InSight’s instruments are a seismometer and heat flow probe.

InSight has so far shared a handful of grainy images using its lander-mounted, Instrument Context Camera (ICC) and the Instrument Deployment Camera (IDC) on its robotic arm (shown). The latest show the area directly in front of it, along with a look at some of its instruments.

“Studying seismic waves tells us what might be creating the waves,” NASA said. “On Mars, scientists suspect that the culprits may be marsquakes, or meteorites striking the surface.

The heat flow probe will drill deeper than the space organization has been able to reach before.

“Its observations will shed light on whether Earth and Mars are made of the same stuff, and provide a sneak peek into how the planet evolved,” said the mission overview.

While the majority of missions do not survive space travel and impact, InSight hit its target – Elysium Planitia lava plane, which is described as a “vast, flat, almost featureless plain near the equator.”

Because InSight was designed to remain stationary while examining Mars’ crust, mantle and core, a proper landing was critical to the success of the rest of the mission.

“Now they’ve determined that the vehicle sits slightly tilted (about 4 degrees) in a shallow dust- and sand-filled impact crater known as a ‘hollow,’” reported phys.org. “InSight has been engineered to operate on a surface with an inclination up to 15 degrees.”

Since its arrival Nov. 26, InSight has been busy sending back the first grainy photo of its landing site, discharging its robotic arm and setting an off-world record for solar power production.

NASA’s InSight lander is now settling into its new home on Mars and sending pictures back to Earth all the while. The latest snapshots show our clearest look yet at the site where the new lander has planted its feet.

InSight’s safe landing is not the only thing NASA has to be proud of. When the probe launched May 5, 2018, it did not leave the Earth without company. Two smaller CubeSats nicknamed Wall-E and Eve followed InSight so scientists could test whether the relay technology could survive such a far journey.

“The CubeSats provided information to InSight’s landing team in just 8 minutes – the time it took for radio signals to travel from Mars to Earth,” according to the Jet Propulsion Laboratory. “That was much faster than waiting on NASA’s Mars orbiters, which weren’t positioned to be able to observe the entire event and send data back to Earth immediately.”

Though NASA invested $814 million into InSight’s technology, the space organization also benefited from foreign contributions.

“InSight will use two main instruments: a dome-shape package containing seismometers and a heat probe that is to burrow about 16 feet down,” the New York Times reported. “France and Germany invested $180 million to build these main instruments.”

Photos courtesy of DailyMail.com.

But, and not to state the obvious, a manned mission to Mars and subsequent colonization presents a whole host of problems. No, I’m not talking about the distance required for travel, even though the multi-month trip has its own challenges. Gravity on Mars is just 38 percent of that on Earth. We already know from experience on the International Space Station that low-gravity environments cause some strange stuff to happen to a human body that’s used to Earth’s gravity. Muscles waste away, bones waste away, blood disappears because our body begins to think we have too much of it. Granted, this is in an environment with almost no gravity, but experiencing even a fraction of those effects would be problematic for daily life.

Mars’ surface temperature is extremely cold, ranging from minus 125 to minus 4 degrees Fahrenheit on a typical day. Though there is evidence of available water on Mars, it’s about as come-and-go throughout the year as the McRib. Mars’ surface pressure is far below the Armstrong limit, the point at which humans begin to boil, requiring constant pressure suits and having every building built like an airplane hull.

High carbon dioxide in the air may seem good for plants, but Mars’ atmosphere has so much carbon dioxide that it would kill any plants exposed to it. On top of it all, the lack of a magnetosphere, which protects us from the space radiation, would cause cancer and radiation poisoning for people living on Mars, even with lead-lined everything.

Mars is a barren Hellscape, but it’s a challenge worth taking because it’s the closest planet to Earth after Venus. Earth, Mars and Venus—orbit the Sun in different ways, meaning the distances between them will vary yearly, but within an ideal window, Venus requires less total propulsion to travel to Earth than a similar mission to Mars. This may be a moot point when you consider the fact that Venus’ surface temperature is so hot that it can melt lead.

Venus is currently shrouded in a thick atmosphere after centuries of runaway greenhouse effect. In other words, Venus has experienced so much climate change that its oceans, if it ever had any, boiled away due to all the heat trapped on the surface. Like a stressed student’s dorm room as a deadline approaches, the sun doesn’t shine there.

But a planet isn’t just its surface. In fact, Venus’ atmosphere is so thick that it can be better thought of as a gaseous ocean. On Earth, balloons filled with helium float in the sky because helium is less dense than air. On Venus, balloons filled with our air would float. With good enough engineering, a large building would float. Venus could hypothetically host floating cities not unlike Cloud City in the Star Wars film “The Empire Strikes Back.”

The outer atmosphere would be quite familiar for a human. NASA scientist Geoffrey A. Landis laid the case out pretty well in “Colonization of Venus,” in which he called the Venusian atmosphere 50 kilometers above the surface the “most earthlike environment in the solar system.” Up there, gravity is 90 percent that of Earth’s (not likely to cause health problems), the temperature varies from about 32 to 122 degrees Fahrenheit and the air pressure is the same as Earth’s. Venus’ atmosphere offers substantial protection from cosmic rays and radiation. One could hypothetically roam the exterior in firefighter’s gear, needing only a breathing apparatus and clothing to provide protection from the acidic atmosphere.

Given the enormous costs of space travel and proposed missions, one might step back and ask “why?” There isn’t a rush to get to another planet like there was a rush to get to the moon during the Space Race. Sure, China and Russia have both put forth mission proposals, but NASA alone has experience sending people to other terrestrial bodies, and American companies like SpaceX may soon expand the United States’ space chops. There’s little political pressure for the government to conduct another manned landing.

Venus presents unique scientific and economic opportunities that we don’t have on Earth. For scientific research, Venus is a lucrative, planet-sized lab for something we’ve seen the devastating effects of this summer: climate change. Unprecedented temperatures, hurricanes and fires have ravaged the North American landscape, and that doesn’t include the effects in other regions of the world like expanding deserts, disappearing oceanic wildlife and blankets of smogin China that make the atmosphere feel less like a bubble and more like an ocean. From Venus’ “oceanic” atmosphere, perhaps we can see where our climate is going and how we could potentially stop it. Landis hasn’t called Venus the “greenhouse planet” and “Earth’s evil twin” for no reason.

Economically, the dreams of asteroid mining could be realized on Venus. As Landis pointed out, Venus is closer to the Asteroid Belt than Mars or Earth. Though we often imagine the Asteroid Belt as a dense field, it’s actually quite sparse. One could set up a base on an asteroid, but it would be far away from any neighbors and farther still from asteroids on the other side of the Sun, should one wish to conduct a mission over there. Since Venus has a fairly rapid orbit, one could use a Venusian colony as a rendezvous point for an asteroid mining company. If the Asteroid Belt were likened to the American coastlines, Venus is Kansas City. And with worries about our Earthly resources running out, it couldn’t come soon enough. Perhaps profits from such an enterprise could offset the enormous cost of settling Venus.

It’s true that NASA has had its sights set on Mars for ages, with a manned mission planned in the 2030s. I’m not saying that we shouldn’t head to Mars, a planet that presents its own advantages and, unlike Venus, has a rock-hard surface to work with. But Venus may be a more immediate and worthwhile goal, and much of the equipment being designed and built for Mars could be pointed to Venus instead. NASA’s Deep Space Transport, a reusable spaceship slated for a manned mission to Mars, is also designed to fly to the moon and Venus. Ship design in our Navy could be easily adapted to Venusian colonies. Space suits designed for Mars work on Venus with more features equipped than a Venusian would need. All of this assumes that NASA would get there first. As I mentioned above, private American enterprise is hot on NASA’s heels, and Venus, with its relative ease of habitation and proximity to lucrative asteroids, may present a better profit margin than anything on Mars.

“Earth is the cradle of humanity,” pioneering space engineer Konstantin Tsiolkovsky once said, “but one cannot live in a cradle forever.” It’s not dire, but for a myriad of reasons, humans need to eventually become a multi-planet species if we want to survive. In the meantime, we need to expand from Earth to seize the initial opportunities beyond, and Venus, not Mars, is the best candidate for our first step.

mars – The Hilltop Monitor

Curiosity gives way to InSight as new NASA lander survives impact on Mars

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