Posted on 08/23/2006 10:24:06 AM PDT by Boxen
The mystery of how Earth got its Moon is one step closer to being solved.
The European Space Agency's lunar-orbiting craft called SMART-1 has completed the first detailed chemical mapping of the lunar surface. The detected chemicals, such as calcium and magnesium, give a boost to the longstanding theory that the Moon formed from the debris flung into space after a collision between early Earth and a Mars-size planet.
Calcium, in particular, is found deep inside Earth. So if the Moon has a lot of calcium, then perhaps it is made of material that was once inside our planet.
Armed with miniaturized instrumentsincluding an ultra-compact electronic camera, an X-ray telescope the size of a toaster for mapping chemical composition, and high-tech communication gadgetsSMART-1 had lofty goals. It was to pin down out how the Moon came to exist, search for water locked up as ice in the depths of Sun-deprived craters, and map the mineral composition of the Moon's crust.
Apollo science
Prior to the Apollo missions, there was no consensus among planetary scientists regarding the Moon's formation. One theory claimed that the Earth and the Moon formed at the same time from the same disk of swirling dust and gas, while another purported that the Moon is a scoop of Earth that split off in the early stages of our solar system.
Besides sending home awe-inspiring photos, the Apollo missions delivered 842 pounds (382 kilograms) of lunar rocks and soilthe first pieces of chemical evidence to help explain the Moon's formation.
The favored theory now describes a violent collision between the Earth and a planet-size object, which hurled molten rocks and dust from both contenders into space. Over time, the debris congealed into the Moon.
With most Moon know-how coming from Apollos six landing sites, scientists saw lots of room for error. To solve the lunar-forming puzzle, a global investigation of the entire surface was needed.
Smart science
Enter SMART-1 (Small Missions for Advanced Research and Technology), a spacecraft equipped with seven high-tech instruments that would give a detailed map of both chemical make-up and topography over the Moons entire surface.
One of the most important devices, D-CIXS (pronounced dee-kicks) recorded hours of X-ray data. When the Suns rays hit the Moon, the X-rays caused atoms to fluoresce and emit their own X-rays. The D-CIXS (Demonstration Compact Imaging X-ray Spectrometer) telescope translated the amount of energy released into the type and abundance of different elements.
D-CIXS detected the major components of rocks: aluminum, silicon, magnesium, and calcium. However, elements like calcium are not homogenously mixed throughout the Moon. To paint a three-dimensional picture of the chemical composition, planetary scientists needed both surface and bulk data.
Cosmic Coincidence
What the project team is calling a cosmic coincidence helped to land that information. On January 2005, a massive solar flare flooded the Moon with X-rays. Meanwhile, the craft was peering over a region called Mare Crisiumthe same location in which Russian Landers had collected soil samples in the 1970s. There, the spectrometer detected calcium in similar amounts to the data collected by the landers.
Plus, calcium showed up in broad areas across the entire lunar surface. This rock-building element lends support to the impact theory.
"From SMART-1 observations of previous landing sites we can compare orbital observations to the ground truth and expand from the local to global views of the Moon," says Bernard Foing, Project Scientist for SMART-1.
More work remains to sort out just how significant the calcium findings are.
"We have good maps of iron across the lunar surface. Now we can look forward to making maps of the other elements," said Manuel Grande of the University of Wales and D-CIXS' Principal Investigator.
The findings will be detailed in the Planetary and Space Science journal.
Dark side
Since the Moons rotation around its axis is equal to its orbital period, or the time it takes the Moon to travel around Earth, the same side always faces Earth. While scientists have studied samples from the Moons near side, the far side and its polar regions have remained in the dark.
For instance, the lunar south pole sits in the solar systems largest crater, called the South Pole-Aitken Basin, which is 1,616 miles (2,600 kilometers) across and 7.5 miles (12 kilometers) deep. SMART-1 snapped loads of photos of the crater, while gathering chemical data. With such depths, the scientists hope to get a peek at the Moons mantle layer, just beneath the crust. Since the Moon accreted material over time, the deeper you go the further back in time you go.
This September, the crafts nearly three-year mission will come to an end with a fiery crash.
As the craft nears shut-eye, its instruments will keep all eyes on the Lake of Excellence, a volcanic plain area surrounded by highlands in the mid-southern latitudes. Such close capture should give scientists insights into the formation of this region.
They could have solved this mystery by just asking Helen Thomas, she must've seen it happen.
Calcium, eh?.......So, it's a giant Rolaids?.........
Or else the moon has bones.
kidding.
So if the moon was ejected from the earth, why is it so round. Wouldn't it be chunky or odd shaped like an asteroid?
Lots of gravity and lots of time.
"I blame Bush..."
Since the Moons rotation around its axis is equal to its orbital period, or the time it takes the Moon to travel around Earth, the same side always faces Earth. While scientists have studied samples from the Moons near side, the far side and its polar regions have remained in the dark.
(taking deep breath)
Sorry, that's a pet peeve of mine. I really hate it when people keep calling the far side of the Moon the dark side, since the far side is lit for two weeks every month. There may be places at the poles which never see the Sun, but don't confuse them with the lunar far side.
(climbing down from soapbox while muttering about explaining that the lunar terminator is not about Arnold on the Moon...)
Most of it was molten or in tiny pieces. Gravity then would draw it all into a spherical shape.
The Moon's shape is a function of its mass.
bump for later
Swell, another celebrity with a "I was abused as a child" story.
If Earth collided with a Mars-sized planet, it's not clear to me how Earth could still have a near-circular orbit around the sun. I would think any such collision would seriously alter the orbit, perhaps even out of the plane of the ecliptic.
Where's the Mars-like planet now? Did it become Mars or was it absorbed into Earth?
Mystery solved!
Consider if the primitive Earth and the Mar-sized planet were in almost the same orbit. The collision would have slowed down or sped up the Earth, but not significantly change its path.
In order to distract attention from the unfortunately mis-managed war in Lebanon, Israeli Prime Minister Ehud Olmert has announced plans to blow up the moon. "The Moon had a violent origin," the Prime Minister told Haaretz, his comb-over slick with sweat, "and it will have a violent death!" The moon was not available for comment.
YEC INTREP
And more: Guillermo Gonzalez & Jay W Richards, The Privileged Planet
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