The LCROSS satellite, launched on June 18th, is slowly making itself ready to smack into the moon in late October. A plume of dust 37 miles high will be produced, which may be visible from Earth (most likely Hawaii). The envy of the Mythbusters, this explosion is designed to find water in permanently shadowed areas of the moon. Much has been written on LCROSS, from historical perspectives to cost containment.
As the impact grows closer, NASA is making an effort to talk about the locally driven mission. Many of the upcoming talks are suitable for any audience, from kids to adults.
Details: Dr. Kim Ennico, LCROSS Payload Scientist and the LCROSS Payload Integration & Test Manager, will provide an overview of the NASA LCROSS mission and discuss how NASA has been expanding the concept of “participatory exploration” with LCROSS as an example. This will be a lively discussion. Andrew Chaikin on LCROSS
Details: Author, speaker, and space journalist Andrew Chaikin joins Chabot visitors for a night of moon conversation and exploration. Using the detailed program Google Moon, which he helped to develop, Chaikin takes the visitor on a guided tour of the moon’s surface. Chaikin will also discuss the recent LCROSS mission and his extensive knowledge of the Apollo missions.
Details: Take a trip to our nearest neighbor in space with renowned science journalist and space historian Andrew Chaikin. Relive the achievements of Apollo lunar astronauts and learn about the ambitious LCROSS mission, which will send a rocket crashing into the moon’s permanently shadowed regions to kick up huge plumes of debris in the hopes of uncovering deposits of ice. In addition, Exploratorium educators will give an entertaining and interactive overview of moon science.
Update: This Friday morning, October 9th at 4:30AM PDT, the upper stage of the Centaur rocket carrying LCROSS will smash into a crater near the moon's south pole. The LCROSS spacecraft will follow close behind, making measurements and taking images of the emerging lunar debris before it too meets its dramatic end. Soon thereafter, we may learn if water can in fact be mined from the dark, cold lunar depths. For you moon junkies, NASA Ames Research Center in Moffett Field is also hosting an "LCROSS Impact Night"this Thursday, beginning at 7PM.
With a price tag of 80 million dollars and a little more than two years in the making, the LCROSS spacecraft will begin its voyage atop an Atlas V rocket. Shortly thereafter it will shepherd the upper stage of the rocket in an orbit around the moon to position it in place for a colossal impact that will kick up a cloud of lunar dust forty miles high. The goal is to see if water exists on the moon and if it does, buried deep beneath the lunar soil, accumulating over millions of years of impacts with comets, it would accelerate our efforts to establish a permanent lunar base. Think of it as a rest stop to refuel (oxygen is an essential ingredient of rocket fuel) before arriving at the next closest planetary body, Mars, a journey which takes roughly 600 days, or 200 times longer than a trip currently to the Moon from Earth.
The avid QUEST viewer may recall that we covered the LCROSS mission in the first episode of QUEST back in 2007. A lot has happened since then, including most notably a change in the launch date which at the time of this post was scheduled for May 20th, 2009. Peter Schultz's vertical gun range has been outfitted with some dizzyingly high-tech cameras, which are capable of recording at tens of thousands of frames per second (one can record at one million frames per second) to capture the most minute progressions of the lunar impact simulations performed with the thirty-foot tall vertical gun. The suite of nine instruments aboard LCROSS, known as its "payload", has been mercilessly subjected to thermal, vibration and acoustic testing to make sure they can withstand the effects of launch and the harsh celestial environment. And then there's the spacecraft itself which we weren't able to show you in 2007 because the spacecraft still had to be transformed from a set of designs into a compact, robust structure the size of a small car by a team of sharp, young Northrop Grumman engineers. Moreover, amateur astronomers, armed with telescopes ten inches or more, are now being encouraged by NASA to share their images of LCROSS' historic lunar impact.
One of the most impressive attributes of the LCROSS mission is its rapid turnaround and cost containment which in turn highlight the innovative production model that was essential in making LCROSS a reality. Imagine the spirit of Silicon Valley, with its entrepreneurial zeal and efficiency, fusing with some of the sharpest minds in astrophysics and aeronautical engineering, and you have a glimpse of the unique nature of this small but nimble mission which just may forever change our understanding of the moon and its secrets.
We see or hear about explosions practically every day on TV–
most people have no idea what an explosion really is.We were asked to surrender all of our communications devices before entering the High Explosives Applications Facility at Lawrence Livermore National Laboratory in Livermore, CA. After handing over our cell phones, checking our IDs and getting our badges, we were led through a labyrinth of Cold War-era concrete hallways where there is a definite atmosphere of secrecy and caution.
It’s true that the majority of the work done there is in support of Department of Defense and Department of Energy programs. But contrary to what one might imagine, the scientists there are work that goes on there isn't ALL about figuring out how to protect the U.S. from Communism. The scientists here are chemists, physicists and engineers who are delving into everything from warhead electrical systems to enhanced mammography.
We’re led into the "firing chamber" to meet our explosives guy, Jon Maienschein, who has promised to blow something up for us. I’m excited. It’s hard to make a bad TV segment when an explosion is involved. If you watch television, you will see that many shows live and die by that rule. Maienshein is surprisingly mild-mannered for a guy who blows things up for a living. After interviewing him for about 30 minutes on camera, we finally had a very basic understanding of what’s happening during a detonation.
There are several different kinds of explosions: chemical, natural, mechanical and nuclear, electrical, astronomical, etc. The most common "artificial" explosives are chemical usually involving a violent, rapid oxidation reaction. The fine folks at LLNL demonstrated just such and explosion for us then gave us the super-cool, ultra-slow-motion footage that they shoot in order to study what actually goes on inside an explosion.
We see or hear about explosions practically every day on TV, the movies and in the news, most people have no idea what an explosion really is. What’s happening on the chemical and molecular level? And how do the people who know about explosives actually study explosions? And why is it necessary to understand this stuff? The whole thing is surprisingly complex.
The QUEST Community Science Blog explores local science, nature, and environment issues & experiences in Northern California. A collaborative effort, our many writers come from local museums, zoos, science centers and research institutions, as well as KQED's TV and Radio producers covering stories in the field.
The LCROSS satellite, launched on June 18th, is slowly making itself ready to smack into the moon in late October. A plume of dust 37 miles high will be produced, which may be visible from Earth (most likely Hawaii). The envy of the Mythbusters, this explosion is designed to find water in permanently shadowed areas of the moon. Much has been written on LCROSS, from historical perspectives to cost containment.
3 Comments