The relatively placid view from the International Space Station belied the potent forces at work in Hurricane Earl as it hovered northeast of Puerto Rico on Aug. 30, 2010. With maximum sustained winds of 135 miles (215 kilometers) per hour, the storm was classified as a category 4 on the Saffir-Simpson hurricane scale as it passed north of the Virgin Islands. In this photograph captured with a digital SLR camera by NASA astronaut Douglas Wheelock, Earl had a distinct eye that spanned about 17 miles (28 kilometers). Most of the storm had a seemingly uniform top, though the bottom edge of the image gives some sense of the towering thunderheads forming over the ocean. The solar panels of the ISS remind us that the sun is still shining, at least on ISS Expedition 24. "Hurricane Earl is gathering some serious strength," Wheelock wrote from his perch on ISS. "It is incredible what a difference a day makes when you’re dealing with this force of nature. Please keep a watchful eye on this one...not sure if Earl will go quietly into the night like Danielle." Image Credit: NASA
This composite image, which has become a popular poster, shows a global view of Earth at night, compiled from over 400 satellite images. NASA researchers have used these images of nighttime lights to study weather around urban areas.
NASA's mission has always been to explore, to discover and to understand the world in which we live from the unique vantage point of space, and to share our newly gained perspectives with the public. That spirit of sharing remains true today as NASA operates 18 of the most advanced Earth-observing satellites ever built, helping scientists make some of the most detailed observations ever made of our world. Image Credit: NASA
On March 7, 1947, not long after the end of World War II and years before Sputnik ushered in the space age, a group of soldiers and scientists in the New Mexico desert saw something new and wonderful in these grainy black-and-white-photos -- the first pictures of Earth as seen from altitude greater than 100 miles in space. Just the year before in 1946, scientists like John T. Mengel, a NASA pioneer who later oversaw the Vanguard Program, began experimenting with captured German V-2 rockets. Mengel conducted upper atmosphere experiments by launchi
ng the rockets into near-earth orbit. He designed and fabricated the first research nose shell to replace of the V-2 warhead and began placing cameras in the nose shell. Before the Small Steps Program began in 1946 using V-2 rockets to take images from space, the highest pictures ever taken of the Earth's surface were from the Explorer II balloon, which ascended 13.7 miles in 1935, high enough to discern the curvature of the Earth. The V-2 cameras reached more than five times that altitude and clearly showed the planet set against the blackness of space. When the movie frames were stitched together, the panoramas taken in the late 1940s covered a million square miles or more at a single glance. Image Credit: Johns Hopkins Applied Physics Laboratory
The Tien Shan mountain range is one of the largest continuous mountain ranges in the world, extending approximately 1,550 miles (2,500 kilometers) roughly east-west across Central Asia. This image taken by the Expedition 27 crew aboard the International Space Station provides a view of the central Tien Shan, about 40 miles (64 kilometers) east of where the borders of China, Kyrgyzstan, and Kazakhstan meet. The uplift of the Tien Shan, which means celestial mountains in Chinese, like the Himalayas to the south, results from the ongoing collision between the Eurasian and Indian tectonic plates. The rugged topography of the range is the result of subsequent erosion by water, wind and, in the highest parts of the range, active glaciers. Two high peaks of the central Tien Shan are identifiable in the image. Xuelian Feng has a summit of 21,414 feet (6,527 meters) above sea level. To the east, the aptly-named Peak 6231 has a summit 6,231 meters, or 20,443 feet, above sea level. Image Credit: NASA
The relatively placid view from the International Space Station belied the potent forces at work in Hurricane Earl as it hovered northeast of Puerto Rico on Aug. 30, 2010. With maximum sustained winds of 135 miles (215 kilometers) per hour, the storm was classified as a category 4 on the Saffir-Simpson hurricane scale as it passed north of the Virgin Islands. In this photograph captured with a digital SLR camera by NASA astronaut Douglas Wheelock, Earl had a distinct eye that spanned about 17 miles (28 kilometers). Most of the storm had a seemingly uniform top, though the bottom edge of the image gives some sense of the towering thunderheads forming over the ocean. The solar panels of the ISS remind us that the sun is still shining, at least on ISS Expedition 24. "Hurricane Earl is gathering some serious strength," Wheelock wrote from his perch on ISS. "It is incredible what a difference a day makes when you’re dealing with this force of nature. Please keep a watchful eye on this one...not sure if Earl will go quietly into the night like Danielle." Image Credit: NASA
The Antarctic ozone hole reached its annual maximum on Sept. 12, 2008, stretching over 27 million square kilometers, or 10.5 million square miles. The area is calculated using data from the Ozone Monitoring Instrument on NASA's Aura satellite. This is considered a "moderately large" ozone hole, according to NASA atmospheric scientist, Paul Newman. And while this year«És ozone hole is the fifth largest on record, the amount of ozone depleting substances have decreased about 3.8% from peak levels in 2000. The largest ozone hole ever recorded occurred in 2006, at a s
ize of 10.6 million square miles. NASA has been monitoring the status of the ozone layer through satellite observations since the 1970s.
Most ISS images are nadir, in which the center point of the image is directly beneath the lens of the camera, but this one is not. This highly oblique image of northwestern African captures the curvature of the Earth and shows its atmosphere. The Earth's atmosphere is composed of 78 percent nitrogen, 21 percent oxygen and 1 percent other constituents, and it shields us from nearly all harmful radiation coming from the sun and other stars. It also protects us from meteors, most of which burn up before they can strike the planet. Affe
cted by changes in solar activity, the upper atmosphere contributes to weather and climate on Earth. Image Credit: NASA/JPL/UCSD/JSC
The Antarctic ozone hole reached its annual maximum on Sept. 12, 2008, stretching over 27 million square kilometers, or 10.5 million square miles. The area is calculated using data from the Ozone Monitoring Instrument on NASA's Aura satellite. This is considered a "moderately large" ozone hole, according to NASA atmospheric scientist, Paul Newman. And while this year«És ozone hole is the fifth largest on record, the amount of ozone depleting substances have decreased about 3.8% from peak levels in 2000. The largest ozone hole ever recorded occurred in 2006, at a s
ize of 10.6 million square miles. NASA has been monitoring the status of the ozone layer through satellite observations since the 1970s.
On March 29, 2011, Operation IceBridge flew between deep canyons and over glaciers along the northwest coast of Greenland. IceBridge, now in its third year, makes annual campaigns in the Arctic and Antarctic where science flights monitor glaciers, ice sheets and sea ice. Image Credit: NASA/Michael Studinger