We're
developing Deep Earth Imaging technology that will allow us to accurately map and discover deeply buried mineral, energy and water resources.
We're
developing Deep Earth Imaging technology to allow geologists to create precise images of subsurface rock properties, as if the regolith material is transparent.
Not exact matches
Serial entrepreneur Richard Branson (CEO of Virgin Galactic, no less) is
developing a one - person submarine — Virgin Oceanic — to visit the
deepest parts of the
Earth's five oceans.
«With these system concept studies, we are taking the next steps to
develop capabilities needed to send humans
deeper into space than ever before, and ultimately to Mars, while testing new techniques to protect
Earth from asteroids,» William Gerstenmaier, associate administrator for NASA's Human Exploration and Operations Mission Directorate.
One production method,
developed in the 1960s, recreates the high - pressure conditions that form natural diamonds
deep in the
earth — a costly and dangerous process.
ASU graduate student Mingming Li in collaboration with ASU professors Allen McNamara and Ed Garnero
developed new simulations that depict the dynamics of
deep Earth.
Seeking to better understand the composition of the lowermost part of
Earth's mantle, located nearly 2,900 kilometers (1,800 miles) below the surface, a team of Arizona State University researchers has
developed new simulations that depict the dynamics of
deep Earth.
Now, a computer modeling approach,
developed by University of Maryland seismologist Vedran Lekic and colleagues at the University of California Berkeley, has produced new seismic wave imagery which reveals that the rising plumes are, in fact, influenced by a pattern of finger - like structures carrying heat
deep beneath
Earth's oceanic plates.
«An asteroid in the
Earth - moon system would provide a safer destination to begin
developing our capability for human
deep space exploration,» says Chris Lewicki of Planetary Resources, a space - mining firm in Seattle.
The group, led by Carlos Fernandez, Ph.D., at PNNL, has
developed a new fracturing fluid that uses an environmentally friendly polymer to create tiny cracks in bedrock
deep below the surface of the
earth.
As important as the geophysicists will be the data scientists and software engineers, because
Deep Earth Imaging is equally an exercise in
developing predictive data analytics tools as it is about discovering subsurface phenomena.
There is no such thing as a silver bullet in our industry but if
Deep Earth Imaging is successful in using available data to
develop software that enables us to produce relatively high confidence geological models or maps of these concealed areas, it will help our industry be more effective, capable and competitive.
Rapid shifts in technology are paving the way for
developing innovative and potentially revolutionary imaging technologies that can reduce risks in
deep earth exploration, writes JONATHAN LAW
Since his early research on
deep earthquakes, Vedran Lekic has repeatedly
developed new ways of analyzing and modeling seismic data, leading to improved understanding of
Earth's large - scale inner strucutre.
Technologies
developed through CSIRO's new
Deep Earth Imaging research will deliver the best results with broad collaboration, says a leading industry geoscientist, JON HRONSKY, of Western Mining Services.
The
Deep Earth Imaging platform is only just at its beginning, but there are several areas where researchers are looking to
develop and demonstrate their capabilities.
CSIRO's
Deep Earth Imaging Future Science Platform aims to take the limited number of physical properties that can be measured and
develop the capacity to turn them into better geological models than those now being created.
An important aspect of the work is
Deep Earth Imaging, through which CSIRO will
develop the tools and techniques, and GA will help apply them, demonstrate their effectiveness and assist industry to adopt them.
When you
develop a
deeper understanding of how the elements —
earth, air, fire, and water — animate your chart, you'll better understand which specific self - care and health routines will take you from blah to bang.
Day 2: We have breakfast at 6:00, then we go to Cruz del Condor view point in our transport, stopping in the village of Yanque and in a very impressive look out point to appreciate the amazing hydraulic system
developed by the Collaguas ethnic group showed in this wonderful platforms and terraces of the Colca valley, then we continues to stop at La Cruz Del Condor to appreciate the
deep Colca Canyon and the flight of the condor, after this we change the conventional guide for a trekking guide, then the rest of the group return to Arequipa, and you will start a new tour with our private trekking guide for Colca, that's why we call this excursion the mixed tour, we arrive to the side of the canyon and we start to hike Colca, descending 1000meters for 3 about hours, We will have lunch in the village of San Juan de Chuccho, here you will have a really nice view of the
deepest canyon on
earth, from this village after we continues again this hike true the Colca canyon arriving first up to Cosñirgua then we continue to Malata Village and after these interesting visits we'll go walk down the Canyon to Sangalle Valley, a beautiful place located at the bottom of the» el cañón del Colca».
He
developed a distinctive gritty, textured approach that transitioned through the 1960s from dark neutralized colors in blocky abstractions suggesting the rock formations of Colorado's mountains to fluid, vibrantly colorful compositions more evocative of volcanic eruptions, hot lava and
deep geological journeys to the
earth's inner core.
Master navigators of Oceania explored and settled what Epeli Hau'ofa called the «sea of islands» — one third of the
Earth's surface — and
developed astute skills of observation and
deep knowledge of the ocean, sky, and cosmos.
The University of the Arts London has
developed the
Deep Time Walk app, taking participants on a 4.6 km journey of the
Earth's history where each meter represents 1 million years.
But as the full site is
developed into the UK's first
earth science park that will use renewable energy from solar, wind, hydro, shallow and
deep geothermal sources, it should provide a useful benchmark for understanding how solar can fit in with other technologies for an integrated approach to clean energy.