What Day 1 On The International Space Station Was Like For The Astronauts

Astronaut Jerry Ross during one of three December 1998 spacewalks to get the space station ready for human habitation. Reflected in his helmet is NASA astronaut James Newman. Behind is one of the solar arrays for the Russian Zarya module. Credit: NASA

There wasn’t a lot of elbow room when six people from the Endeavour shuttle floated into the baby International Space Station on Dec. 10, 1998, but the cramped quarters resonated with possibility in STS-88 commander Bob Cabana’s mind.

“It’s hard to believe 15 years ago we put those first modules together, and we have this facility today that’s the size of a football field,” said Cabana in an interview today (Nov. 20) with Universe Today.

Cabana, who is now the director of the Kennedy Space Center, oversaw a complex mission that included joining the Russian Zarya and U.S. Unity modules, three spacewalks to get the modules powered and ready for humans to enter, and the pressure of public relations activities surrounding the opening of the station itself.

“That was a very special day, when we went into Unity and Zarya for the first time. There was a lot of excitement and anticipation,” Cabana said. He and Russian Sergei Krikalev — who would go on to become the person who spent the most time in space, at 803 days — entered the tiny hatches side by side to emphasize the international participation.

As is typical of spaceflight, the astronauts spent most of their day at work, busily waking up the station and testing its systems. NASA astronauts Jerry Ross and James Newman put together a communications system. Other crew members tested the videoconference equipment — important for press conferences as well as talking to scientists on the ground. Equipment and supplies in Zarya had to be unstowed and organized.

There also was the first repair on station, when Krikalev and NASA astronaut Nancy Currie replaced a faulty unit in Zarya  “which controlled the discharging of stored energy from one of the module’s six batteries,” NASA wrote in an update at the time.

Cabana wanted his crew to get eight hours of sleep, but the excitement of that first day kept everybody up until 2:30 in the morning despite the wakeup call coming at 7 a.m.

A space station is born. The Russian Zarya module (top) is connected to the U.S. Unity module using the Canadarm on Dec. 6, 1998. Shot is a still from an IMAX camera carried on board shuttle Endeavour. Credit: NASA
A space station is born. The Russian Zarya module (top) is connected to the U.S. Unity module using the Canadarm on Dec. 6, 1998. Shot is a still from an IMAX camera carried on board shuttle Endeavour. Credit: NASA

“We were talking  about what the ISS means, what will be accomplished with this cornerstone,” Cabana recalled, and said he is pleased with what has come to pass in the next 15 years. “It had come true. Everything we thought that could be has come together. That was a very special night, thinking about the future and how important the International Space Station was.”

The heaviest construction finished in 2011, and larger crews of six were allowed on board rather than the beginning crews of just three. NASA is now trying to position the station as a venue for microgravity science to justify the expense of running it. The astronauts, however, must balance their time doing science with the normal chores and maintenance the station requires. (The recent Expedition 35/36 missions were extremely productive in terms of science return, NASA astronaut Chris Cassidy told Universe Today in a past interview.)

All buildings on Earth require upgrades from time to time to stay safe and up to date, and the ISS is no different. Cabana said analysis will be done to “extend the life on some of the modules, but we don’t see that as a large issue.” The reason? The crews do “an outstanding job” keeping the station humming along with routine maintenance, he said.

Today (Nov. 20) marks the 15th anniversary of Zarya’s launch into orbit. The station partners are currently committed until 2020, meaning negotiations are forthcoming to see what to do with the station in the years afterwards. It’s unclear what will happen next — the recession is still reverberating in the United States and overseas — but today, the agencies focused on the successes.

Each partner agency tweeted facts and science concerning the ISS under the hashtag #ISS15, and invited people using all forms of social media to share their thoughts on the station. What are some notable things about the station, and what is a good use of it in the future, in your opinion? Let us know in the comments.

NASA astronaut Bob Cabana (left) and Russian cosmonaut Sergei Krikalev just outside the hatch to the Zarya Russian module  on Dec. 10, 1998. Credit: NASA
NASA astronaut Bob Cabana (left) and Russian cosmonaut Sergei Krikalev just outside the hatch to the Zarya Russian module on Dec. 10, 1998. Credit: NASA

NASA Infographic: 15 Years of the International Space Station

The first International Space Station component, the Russian Zarya module, was launched 15 years ago today, on November 20, 1998. Since then, a consortium of 15 different nations have constructed a world-class orbiting laboratory, with a continual human presence onboard since 2000. Construction was considered officially complete in 2011, but new modules are still planned.

NASA is celebrating the milestone with an infographic showcasing some of the amazing and surprising facts about humanity’s home away from Earth. See below for the infographic, as well as two videos with highlights from the past 15 years of the ISS:

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To keep tabs on what is going on daily at the ISS, visit NASA’s ISS webpage. You can also find out how to see the station for yourself at spotthestation.nasa.gov or watch live station video at www.nasa.gov/iss-stream.

Win a Copy of The Year in Space: 2014 Wall Calendar

It’s back! And it’s full of amazing color images, daily space facts, historical references, and it even shows you where you can look in the sky for all the best astronomical sights. The 2014 version of Steve Cariddi’s wonderful Year in Space Wall Calendar is now available to order, and thanks to Steve, Universe Today has 5 copies to give away!

This giveaway is now closed.

This is a gorgeous wall calendar that has over 120 beautiful photos of space, as well as in-depth info on human space flight, planetary exploration, and deep sky wonders. This calendar is huge — much larger than a traditional wall calendar — and last year it was named “Science Geek Gift of the Year” at Alan Boyle’s NBC “Cosmic Log” website.

Other features of this calendar:
– Background info and fun facts
– A sky summary of where to find naked-eye planets
– Space history dates
– Major holidays (U.S. and Canada)
– Daily Moon phases
– A mini-biography of famous astronomer, scientist, or astronaut each month

For our giveaway, to be entered into the drawing, just put your email address into the box below (where it says “Enter the Giveaway”) before Monday, November 25, 2013.

If this is the first time you’re registering for a giveaway from Universe Today, you’ll receive a confirmation email immediately where you’ll need to click a link to be entered into the drawing. For those who have registered previously, you’ll receive an email later where you can enter this drawing.

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These calendars normally sell for $16.95, but Universe Today readers can buy the calendar for only $12.95 or less (using the “Internet” discount), and get free U.S. shipping and discounted international shipping.

There’s also the 144-Page Desk Calendar at a similar discounts.

You can preview the entire calendar at the Year in Space Calendar website.

It’s published in cooperation with The Planetary Society, with an introduction by Bill Nye. Our thanks to Steve Cariddi for providing this giveaway opportunity for our readers!

How to Watch the Spectacular Minotaur Night Launch on Nov. 19 with Record Setting 29 Satellite Payload

Elevation viewing map for Minotaur 1 rocket launch on Nov. 19 from NASA Wallops Island facility. Credit: Orbital Sciences

Tonight, Tuesday, Nov. 19, tens of millions of residents up and down the US East coast have another opportunity to watch a spectacular night launch from NASA’s Wallops Island facility in Virginia – weather permitting.

See a collection of detailed visibility and trajectory viewing maps, as well as streaming video of the launch, courtesy of rocket provider Orbital Sciences and NASA Wallops Flight Facility.

And to top that off, the four stage Minotaur 1 rocket is jam packed with a record setting payload of 29 satellites headed for Earth orbit.

And if that’s not enough to pique your interest, the Virginia seaside launch will also feature the first cubesat built by high school students.

And viewing is open to the public.

Minotaur 1 launch trajectory map for the US Capitol, Washington, DC.  Credit: Orbital Sciences
Minotaur 1 launch trajectory map for the US Capitol, Washington, DC. Credit: Orbital Sciences

Blastoff of the Minotaur I rocket for the Department of Defense’s Operationally Responsive Space Office on the ORS-3 mission is on target for tonight, Nov. 19, from the Mid-Atlantic Regional Spaceport’s Pad-0B at NASA’s Wallops Flight Facility on the eastern shore of Virginia.

The launch window for the 70 foot tall booster opens at 7:30 pm EST and extends until 9:15 pm EST.

Minotaur 1 launch trajectory map for Rockefeller Center N.Y.C.
Minotaur 1 launch trajectory map for Rockefeller Center N.Y.C.

The ORS-3 mission is a combined US Air Force and NASA endeavor that follows the flawless Nov. 18 launch of NASA’s MAVEN Mars orbiter from Florida by just 1 day.

However the pair of East coast launch pads are separated by some 800 miles.

Minotaur 1 launch trajectory map for Charleston S.C.
Minotaur 1 launch trajectory map for Charleston S.C.

According to NASA and Orbital Sciences, the launch may be visible along a wide swatch from northern Florida to southern Canada and well into the Midwest stretching to Indiana – if the clouds are minimal and atmospheric conditions are favorable from your particular viewing site.

The primary payload is the Space Test Program Satellite-3 (STPSat-3), an Air Force technology-demonstration mission, according to NASA.

Minotaur 1 launch trajectory map for Raleigh N.C.
Minotaur 1 launch trajectory map for Raleigh N.C.

Also loaded aboard are thirteen small cubesats being provided through NASA’s Cubesat Launch Initiative, NASA said in a statement. Among the cubesats is NASA’s Small Satellite Program PhoneSat 2 second generation smartphone mission and the first ever cubesat assembled by high schooler’s.

Minotaur 1 launch trajectory map for Philadelphia P.A.
Minotaur 1 launch trajectory map for Philadelphia P.A.

Locally, the NASA Visitor Center at Wallops and the Chincoteague National Wildlife Refuge/Assateague Island National Seashore will be open for viewing the launch. Visitors to Assateague need to be on the island by 6 p.m. before the entrance gate closes.

Live coverage of the launch is available via UStream beginning at 6:30 p.m. EST on launch day. Watch below:

Ken Kremer

Using the ‘Missing Physics’ of Stellar Feedback to Accurately Simulate Galaxies from the Big Bang to Today

A simulated dwarf galaxy when the universe was 0.5 billion years old. Magenta represents cool gas, green is warm ionized gas, and red is hot gas. Check out the movie. Image credit: Hopkins et al. 2013.

For the first time, astronomers are able to accurately simulate galaxies from shortly after the big bang to today by including a realistic treatment of the effects stars have on their host galaxies.

For the past few decades astronomers have simulated galaxies by mixing the basic physical ingredients — gravity, gas chemistry and the evolution of the universe — into their models.

For years their simulations have shown that gas cools off quickly and falls to the center of the galaxy. Eventually all of the gas forms stars. But observations show only “10 percent of the gas in the universe actually does so,” CalTech astronomer Dr. Philip Hopkins explained. “And in very small or very large galaxies, the number can go down to well below a percent.”

Models of galaxies create far too many stars and as a result end up weighing more than real galaxies in the observable universe. But in theory the solution is simple: the missing physics is a process known as stellar feedback.

For that, astronomers have to look at how stars help shape the evolution of the galaxies in which they reside. And what they have found is that stars affect their environments drastically.

When stars are very young they are extremely hot and blast off a high amount of radiation into space. This radiation heats up and pushes on the nearby interstellar gas. Later on stellar winds – particles streaming from the surface of stars — also push on the gas, further disrupting nearby star formation. Finally, explosions as supernovae can push the gas to nearly sonic speeds.

While astronomers have understood the missing physics for quite a while, they have not been able to successfully incorporate it a priori into their models. Despite their efforts their simulated galaxies have always weighed more than observed galaxies actually weigh.

Understanding the missing physics is a completely different question than being able to incorporate the missing physics directly into their models.

Instead, astronomers made big assumptions based on what galaxies should look like.  At some point in their simulations, they had to go in by hand and tune certain parameters. They would get rid of so much gas until the results roughly matched the galaxies we observe.

“Basically, they (astronomers) said ‘we need there to be winds to explain the observations, so we’re going to insert those winds by hand into our models, and adjust the parameters until it looks like what’s observed,’ ” Hopkins told Universe Today.

At the time tuning their models in this way was the best astronomers could do and their models did help improve our understanding of galaxy evolution. But Hopkins and a team of astronomers from across North America have found a way to incorporate the missing physics — stellar feedback — directly into their models.

The research team is creating simulations that draw from stellar feedback explicitly. The FIRE (Feedback in Realistic Environments) project is a multi-year, multi-institution effort.

While it was no easy task, they incorporated the necessary and dare I say messy physics into their models, allowing for unprecedented accuracy. They tracked the affects radiation and stellar winds have on their environments and included a realistic supernovae rate.

“The result is that we see these stars pushing on the gas, and supernovae explosions sweeping up and ‘blowing out’ large amounts of material from galaxies,” Hopkins explained. “When you follow all of this, the story holds together, and indeed we can explain the observed masses of galaxies just from the input of stars.”

A simulated galaxy when the universe was 11.7 billion years old. Make sure the check out the move by clicking on the image above. Image credit: Hopkins et al. 2013
A simulated galaxy when the universe was 11.7 billion years old. Blue regions are young star clusters that have blown away their gas. Red regions are obscured by dust. Make sure the check out the movie by clicking on the image above. Image credit: Hopkins et al. 2013.

The results have been rewarding — providing some pretty cool videos of galaxies forming across the observable universe — and surprising.

It has become clear that the different types of stellar feedback don’t work alone.   While the energy given off by stellar winds can push away interstellar gas, it cannot launch the gas out of the galaxy entirely. The necessary propulsion occurs, instead, when a supernova explosion happens nearby.

But this isn’t to say that supernova explosions play a larger role than stellar winds. If the authors left out any stellar feedback mechanism (the radiation from hot young stars, stellar winds, or supernova explosions) the results were equally poor — with too many stars and masses much too large.

“We’ve just begun to explore these new surprises, but we hope that these new tools will enable us to study a whole host of open questions in the field.”

The paper has been submitted for publication in the Monthly Notices of the Royal Astronomical Society and is available for download here.

Hopkins discusses the “Cosmological zoom-in simulation using new stellar feedback” at at workshop at the University of California, Santa Cruz earlier this year:

Moonwalker’s Golf Club Now Hanging Out In New Jersey Museum

Apollo 14 astronaut Al Shepard holding a golf club he used during the moon mission in 1971. Here he is visiting the United States Golf Association Museum in Far Hills, NJ in 1995. Credit: Robert Walker/USGA

During that heady time when NASA was sending people to the moon, Apollo astronaut Al Shepard — so the story goes — was showing comedian Bob Hope around a NASA center. Hope went into a simulator for the lighter lunar gravity and swung a golf club around (a habit of his) as he bounced around.

“That was the inspiration, I guess,” said Michael Trostel, the curator and historian at the United States Golf Association Museum in Far Hills, New Jersey. In other words, the inspiration for Al Shepard to bring a golf club to the moon and hit a couple of balls. The golf club, in fact, is at the USGA Museum today.

Of course, it wasn’t so easy just to bring a six-iron on board — there were science experiments and other payloads for the Apollo 14 crew. According to the Smithsonian National Air and Space Museum, the golf club was actually “a contingency sample extension handle with a No. 6 iron golf club head attached.”

Unusually, as space artifacts tend to head over to the Smithsonian after missions, this particular one ended up at the USGA Museum itself. In 1972, when singer Bing Crosby (also a friend of Hope’s and Shepard’s) was a member of the board, he wrote to Shepard on behalf of the museum and asked for the club. Shepard agreed and handed it over during a special ceremony in 1974.

“The reason that it’s not in this museum was that it was personal property of Alan Shepherd. In other words, he took it to space, he brought it back, it was still his personal property he donated it and it was his. That’s the reason,” said Claire Brown, the Smithsonian National Air and Space Museum’s communications director.

“Things were a little different back then. You could take a certain amount of personal property. There are different rules now, but at the time that he did it, he was able to bring his own personal club.”

A close-up of the golf club used by Apollo 14 astronaut Al Shepard on the moon. Credit: USGA/USGA Museum
A close-up of the golf club used by Apollo 14 astronaut Al Shepard on the moon. Credit: USGA/USGA Museum

Teenaged Space Station Thriving After 15 Years Of Science, Extreme Construction And Tricky Repairs

The International Space Station in March 2009 as seen from the departing STS-119 space shuttle Discovery crew. Credit: NASA/ESA

Extreme conditions surround the International Space Station’s scientific work, to say the least. It takes a rocketship to get there. Construction required more than 1,000 hours of people using spacesuits. Astronauts must balance their scientific work with the need to repair stuff when it breaks (like an ammonia coolant leak this past spring.)

But amid these conditions, despite what could have been show-stoppers to construction such as the Columbia shuttle tragedy of 2003, and in the face of changing political priorities and funding from the many nations building the station, there the ISS orbits. Fully built, although more is being added every year. The first module (Zarya) launched into space 15 years ago tomorrow. Humans have been on board continuously since November 2000, an incredible 13 years.

The bulk of construction wrapped up in 2011, but the station is still growing and changing and producing science for the researchers sending experiments up there. Below are some of the milestones of construction in the past couple of decades. Did we miss something important? Let us know in the comments.

It's a baby space station! The Russian Zarya module (left) and U.S. Unity module after they were joined on Dec. 4, 1998. Photograph taken by the STS-88 crew aboard space shuttle Endeavour. Credit: NASA
It’s a baby space station! The Russian Zarya module (left) and U.S. Unity module after they were joined on Dec. 4, 1998. Photograph taken by the STS-88 crew aboard space shuttle Endeavour. Credit: NASA
The space station with newly installed U.S. solar arrays (top) in December 2000. Picture taken by the departing STS-97 crew aboard space shuttle Endeavour. Credit: NASA
The space station with newly installed U.S. solar arrays (top) in December 2000. Picture taken by the departing STS-97 crew aboard space shuttle Endeavour. Credit: NASA
The Expedition 1 crew, which docked with the space station on Nov. 2, 2000. From left, NASA's Bill Shepherd, and Roscosmos' Yuri Gidzenko and Sergei Krikalev. Humans have lived continuously in orbit since that day, more than 13 years ago. Credit: NASA
The Expedition 1 crew, which docked with the space station on Nov. 2, 2000. From left, NASA’s Bill Shepherd, and Roscosmos’ Yuri Gidzenko and Sergei Krikalev. Humans have lived continuously in orbit since that day, more than 13 years ago. Credit: NASA
STS-114 NASA astronaut Steve Robinson in 2005 aboard Canadarm2, a robotic arm designed specifically for International Space Station construction. Canadarm2 was installed during STS-100 in 2001. It took more than 1,000 hours of spacewalking assembly to put the station together. Credit: NASA
STS-114 NASA astronaut Steve Robinson in 2005 aboard Canadarm2, a robotic arm designed specifically for International Space Station construction. Canadarm2 was installed during STS-100 in 2001. It took more than 1,000 hours of spacewalking assembly to put the station together. Credit: NASA
With NASA Expedition 2 astronaut Susan Helms controlling Canadarm2, the Quest airlock is brought over for installation on Unity Node 1 aboard the International Space Station. Today, Quest is the usual departure point for U.S. spacewalks. Credit: NASA
With NASA Expedition 2 astronaut Susan Helms controlling Canadarm2, the Quest airlock is brought over for installation on Unity Node 1 aboard the International Space Station. Today, Quest is the usual departure point for U.S. spacewalks. Credit: NASA
November 3, 2007 – Canadarm2 played a big role in helping astronauts fix a torn solar array.  The arm’s reach was extended by the Orbiter Boom Sensor System, and here, allowing astronaut Scott Parazynski analyses the solar panel while anchored to the boom. Credit: NASA
From time to time, astronauts are called upon to perform tricky repairs to the International Space Station. This October 2007 spacewalk by NASA astronaut Scott Parazynski during shuttle mission STS-120 repaired tears to one of the station’s solar panels — while the panel was powered. Spacewalks have also addressed ammonia leaks, among other things. Credit: NASA
European Space Agency astronaut Hans Schlegel works on installing the ESA Columbus laboratory in 2008. The ten racks on board Columbus can be worked on by astronauts or controlled remotely from a center in Germany. NASA is trying to position the station as an orbiting laboratory that can perform experiments that are impossible on Earth, but astronauts must balance science work with maintenance tasks aboard the station. Credit: NASA
European Space Agency astronaut Hans Schlegel works on installing the ESA Columbus laboratory in 2008. The ten racks on board Columbus can be worked on by astronauts or controlled remotely from a center in Germany. NASA is trying to position the station as an orbiting laboratory that can perform experiments that are impossible on Earth, but astronauts must balance science work with maintenance tasks aboard the station. Credit: NASA
Astronaut Tracy Caldwell Dyson reflects on the view from the ISS's Cupola. Credit: Doug Wheelock/NASA
Astronaut Tracy Caldwell Dyson (Expedition 23/24) reflects on the view from the ISS’s Cupola in 2010. This panoramic window to Earth was a late addition to the station, in February 2010. Credit: Doug Wheelock/NASA
Space station construction is still ongoing. In 2015, the Bigelow Expandable Activity Module (BEAM) will be attached to the station as a sort of inflatable room. The test will examine the viability of inflatable structures in space. Pictured in front are NASA Deputy Administrator Lori Garver and Robert T. Bigelow, president and founder of Bigelow Aerospace in 2013. NASA/Bill Ingalls
Space station construction is still ongoing. In 2015, the Bigelow Expandable Activity Module (BEAM) will be attached to the station as a sort of inflatable room. The test will examine the viability of inflatable structures in space. Pictured in front are NASA Deputy Administrator Lori Garver and Robert T. Bigelow, president and founder of Bigelow Aerospace in 2013. NASA/Bill Ingalls

Carnival of Space #328

Carnival of Space. Image by Jason Major.
Carnival of Space. Image by Jason Major.

The tent is up! This week’s Carnival of Space is hosted by Kimberly Arcand at the Chandra X-Ray Observatory blog.

Click here to read Carnival of Space #328.

And if you’re interested in looking back, here’s an archive to all the past Carnivals of Space. If you’ve got a space-related blog, you should really join the carnival. Just email an entry to [email protected], and the next host will link to it. It will help get awareness out there about your writing, help you meet others in the space community – and community is what blogging is all about. And if you really want to help out, sign up to be a host. Send an email to the above address.

This Hitchhiking Satellite — Launching Today — Is Small Enough To Fit In Your Hand

A "PhoneSat", which is intended to show how ordinary consumer devices can explore space. Credit: NASA Ames Research Center/Dominic Hart

Talk about tiny technology. The NASA PhoneSat 2.4, which is set to launch today (Nov. 19), is so small that the satellite can easy fit in just one of your hands. The agency is quite excited about this second in the series of PhoneSat launches; the first, in April, saw three “smartphone satellites” working in orbit for a week.

PhoneSat is scheduled to launch as a hitchhiker aboard a rocket that will carry the  U.S. Air Force Office of Responsive Space ORS-3 mission. The payloads will lift off from the Mid Atlantic Regional Spaceport at NASA’s Wallops Flight Facility in Virginia.

“It’s tabletop technology,” stated Andrew Petro, program executive for small spacecraft technology at NASA Headquarters in Washington.

Andrew Petro, NASA Small Satellite Program executive, holds NASA Smartphone Phonesat replica launched on Antares test flight on April 21, 2013. Credit: Ken Kremer (kenkremer.com)
Andrew Petro, NASA Small Satellite Program executive, holds NASA Smartphone Phonesat replica launched on Antares test flight on April 21, 2013. Credit: Ken Kremer (kenkremer.com)

“The size of a PhoneSat makes a big difference. You don’t need a building, just a room. Everything you need to do becomes easier and more portable. The scale of things just makes everything, in many ways, easier. It really unleashes a lot of opportunity for innovation.”

PhoneSat will be at a higher altitude than its predecessors, NASA added, allowing controllers to gather information on the radiation environment to see how well vital electronics would be affected. In the long run, the agency hopes these tiny machines can be used for Earth science or communications, among other things.

“For example, work is already underway on the Edison Demonstration of Smallsat Networks (EDSN) mission,” NASA stated. “The EDSN effort consists of a loose formation of eight identical cubesats in orbit, each able to cross-link communicate with each other to perform space weather monitoring duties.”

The launch is expected at 7:30 pm EST (12:30 a.m. UTC) and you can follow it on NASA TV.

If you live along the US and Canada east coast, you may be able to see the launch if the skies are clear. The map below shows where it might be visible. See the Orbital Sciences Corp. website for more info.

A map showing where the launch will be on the East Coast on Nov. 19, 2013. Credit: Orbital Sciences Corporation.
A map showing where the launch will be on the East Coast on Nov. 19, 2013. Credit: Orbital Sciences Corporation.

Source: NASA

MAVEN thunders to Space on Journey to Study Red Planet’s Watery History and Potential for Life

NASA’s Mars bound MAVEN spacecraft launches atop Atlas V booster at 1:28 p.m. EST from Space Launch Complex 41 at Cape Canaveral Air Force Station on Nov. 18, 2013. Image taken from the roof of the Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center. Credit: Ken Kremer/kenkremer.com

KENNEDY SPACE CENTER, FL – NASA’s Mars Atmosphere and Volatile Evolution (MAVEN) space probe thundered to space today (Nov. 18) following a flawless blastoff from Cape Canaveral Air Force Station’s Space Launch Complex 41 at 1:28 p.m. EST atop a powerful Atlas V rocket.

“Hey Guys we’re going to Mars!” gushed Bruce Jakosky, MAVEN’s Principal Investigator at a post launch briefing for reporters.

“Now I am a Martian,” beamed Jakosky gleefully, as well as is everyone else who has worked on MAVEN since the project was conceived some ten years ago, he noted.

Today’s countdown was absolutely perfect culminating in a spectacular and on time lift off that rumbled across the Florida Space Coast to the delight of cheering crowds assembled for the historic launch aimed at discovering the history of water and habitability stretching back over billions of years on Mars.

“I take great pride in the entire team,” said Jakosky.

“Everyone was absolutely committed to making this work.”

MAVEN launches atop Atlas V booster on Nov. 18, 2013 from NASA’s Kennedy Space Center, Florida.  Credit: Mike Killian/mikekillianphotography.com
MAVEN launches atop Atlas V booster on Nov. 18, 2013 from NASA’s Kennedy Space Center, Florida. Credit: Mike Killian/mikekillianphotography.com

The $671 Million MAVEN spacecraft separated from the Atlas Centaur upper stage some 52 minutes after liftoff, unfurled its wing like solar panels to produce life giving power and thus began a 10 month interplanetary voyage to the Red Planet.

“We’re currently about 14,000 miles away from Earth and heading out to the Red Planet right now,” said MAVEN Project Manager David Mitchell of NASA’s Goddard Space Flight Center at the briefing, after the 5,400-pound spacecraft had been soaring through space for barely two and a half hours.

“The first trajectory correction maneuver (TCM) is set for Dec. 3,” added Mitchell. There are a minimum of four TCM’s to ensure that the majestic probe remains precisely on course for Mars.

“Safe travels MAVEN!” said Mitchell. “We’re with you all the way.”

NASA’s Mars bound MAVEN spacecraft launches atop Atlas V booster at 1:28 p.m. EST from Space Launch Complex 41 at Cape Canaveral Air Force Station on Nov. 18, 2013. Image taken from the roof of the Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center.  Credit: Ken Kremer/kenkremer.com
NASA’s Mars bound MAVEN spacecraft launches atop Atlas V booster at 1:28 p.m. EST from Space Launch Complex 41 at Cape Canaveral Air Force Station on Nov. 18, 2013. Image taken from the roof of the Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center. Credit: Ken Kremer/kenkremer.com

It will take the spacecraft 10 months to reach the Red Planet, with arrival scheduled for Sept. 22, 2014.

Jakosky noted that while the launch is a big milestone, it’s just the beginning.

MAVEN’s purpose is to accomplish world class science after arriving at Mars and completing a check-out period before it can finally begin collecting science data.

MAVEN will answer key questions about the evolution of Mars, its geology and the potential for the evolution of life.

“MAVEN is an astrobiology mission,” says Jakosky.

Mars was once wet billions of years ago, but no longer. Now it’s a cold arid world, not exactly hospitable to life.

“We want to determine what were the drivers of that change?” said Jakosky. “What is the history of Martian habitability, climate change and the potential for life?”

MAVEN will study Mars upper atmosphere to explore how the Red Planet may have lost its atmosphere over billions of years. It will measure current rates of atmospheric loss to determine how and when Mars lost its atmosphere and water.

The MAVEN probe carries nine sensors in three instrument suites.

The Particles and Fields Package, provided by the University of California at Berkeley with support from CU/LASP and NASA’s Goddard Space Flight Center in Greenbelt, Md., contains six instruments to characterize the solar wind and the ionosphere of Mars. The Remote Sensing Package, built by CU/LASP, will determine global characteristics of the upper atmosphere and ionosphere. The Neutral Gas and Ion Mass Spectrometer, built by Goddard, will measure the composition of Mars’ upper atmosphere.

“We need to know everything we can before we can send people to Mars,” said Dr. Jim Green, NASA’s Director of Planetary Science at NASA HQ in Washington, DC.

“MAVEN is a key step along the way. And the team did it under budget!” Green elaborated. “It is so exciting!”

Dr. Jim Green (4th from left), NASA’s Director of Planetary Science poses with space journalists and photographers covering the Nov. 18 MAVEN launch at the Kennedy Space Center, including Ken Kremer (left) from Universe Today/RocketSTEM Media Foundation.  Credit: Alan Walters/awaltersohoto.com
Dr. Jim Green (5th from left), NASA’s Director of Planetary Science, poses with MAVEN spacecraft model and space journalists and photographers covering the Nov. 18 MAVEN launch at the Kennedy Space Center – including Ken Kremer (left) from Universe Today/RocketSTEM Media Foundation. Credit: Alan Walters/awaltersohoto.com

Over the course of its one-Earth-year primary mission, MAVEN will observe all of Mars’ latitudes at altitudes ranging from 93 miles to more than 3,800 miles.

MAVEN will execute five deep dip maneuvers during the first year, descending to an altitude of 78 miles. This marks the lower boundary of the planet’s upper atmosphere.

Stay tuned here for continuing MAVEN and MOM news and Ken’s MAVEN launch reports from on site at the Kennedy Space Center press site.

Ken Kremer

…………….

Learn more about MAVEN, MOM, Mars rovers, Orion and more at Ken’s upcoming presentations

Nov 18-21: “MAVEN Mars Launch and Curiosity Explores Mars, Orion and NASA’s Future”, Kennedy Space Center Quality Inn, Titusville, FL, 8 PM

Dec 11: “Curiosity, MAVEN and the Search for Life on Mars”, “LADEE & Antares ISS Launches from Virginia”, Rittenhouse Astronomical Society, Franklin Institute, Phila, PA, 8 PM