NASA Gallery

OLYMPEX Scientist Profiles: Rachael Kroodsma

From November 10 through December 21, NASA and university scientists are taking to the field to study wet winter...

GPM Gets Flake-y: Formation

The Global Precipitation Measurement can help improve numerical weather predictions of snowfall by measuring the...

NASA Sees Intense Fires Around The World

This year’s wildfire season is off to a blazing start. The United States had an early start to the season, with more...

GPM Gets Flake-y: Growing

The Global Precipitation Measurement can help improve numerical weather predictions of snowfall by measuring the...

ORACLES Campaign: B-Roll 3

Southern Africa produces almost a third of the world’s vegetative burning, which sends smoke particles up into the...

NASA Captures Hurricane Harvey's Rainfall: Visualization

The Global Precipitation Measurement (GPM) Core Observatory captured these images of Hurricane Harvey at 11:45 UTC...

How Solar Flares Affect Earth

A team of scientists —led by Laura Hayes, a solar physicist who splits her time between NASA Goddard and Trinity...

Mars Earth Entry System Aeroshell at Entry (Illustration)

This illustration depicts the Mars Earth Entry System for the Mars Sample Return campaign. The system would contain...

The Faint Young Star Paradox: Solar Storms May Have Been Key to Life on Earth

Our sun's adolescence was stormy—and new evidence shows that these tempests may have been just the key to seeding...

NASA’s Asteroid-Hunting Space Telescope NEOWISE Retires, Leaves Legacy

The NEOWISE mission, NASA’s asteroid-hunting space telescope, retired in August 2024 after over a decade of...

KENNEDY SPACE CENTER, FLA. - The SciSat-1 spacecraft is revealed after being uncrated at Vandenberg Air Force Base, Calif. SciSat-1 weighs approximately 330 pounds and will be placed in a 400-mile-high polar orbit to investigate processes that control the distribution of ozone in the upper atmosphere. The scientific mission of SciSat-1 is to measure and understand the chemical processes that control the distribution of ozone in the Earth’s atmosphere, particularly at high altitudes. The data from the satellite will provide Canadian and international scientists with improved measurements relating to global ozone processes and help policymakers assess existing environmental policy and develop protective measures for improving the health of our atmosphere, preventing further ozone depletion. The mission is designed to last two years.

KENNEDY SPACE CENTER, FLA. - Workers at Vandenberg Air Force Base, Calif., prepare to move the SciSat-1 spacecraft. SciSat-1 weighs approximately 330 pounds and will be placed in a 400-mile-high polar orbit to investigate processes that control the distribution of ozone in the upper atmosphere. The scientific mission of SciSat-1 is to measure and understand the chemical processes that control the distribution of ozone in the Earth’s atmosphere, particularly at high altitudes. The data from the satellite will provide Canadian and international scientists with improved measurements relating to global ozone processes and help policymakers assess existing environmental policy and develop protective measures for improving the health of our atmosphere, preventing further ozone depletion. The mission is designed to last two years.

KENNEDY SPACE CENTER, FLA. - At Vandenberg Air Force Base, Calif., the Pegasus launch vehicle is moved toward its hangar. The Pegasus will carry the SciSat-1 spacecraft in a 400-mile-high polar orbit to investigate processes that control the distribution of ozone in the upper atmosphere. The scientific mission of SciSat-1 is to measure and understand the chemical processes that control the distribution of ozone in the Earth’s atmosphere, particularly at high altitudes. The data from the satellite will provide Canadian and international scientists with improved measurements relating to global ozone processes and help policymakers assess existing environmental policy and develop protective measures for improving the health of our atmosphere, preventing further ozone depletion. The mission is designed to last two years.

KENNEDY SPACE CENTER, FLA. - Inside the hangar at Vandenberg Air Force Base, Calif., workers wait for the Pegasus launch vehicle to be moved inside. The Pegasus will carry the SciSat-1 spacecraft in a 400-mile-high polar orbit to investigate processes that control the distribution of ozone in the upper atmosphere. The scientific mission of SciSat-1 is to measure and understand the chemical processes that control the distribution of ozone in the Earth’s atmosphere, particularly at high altitudes. The data from the satellite will provide Canadian and international scientists with improved measurements relating to global ozone processes and help policymakers assess existing environmental policy and develop protective measures for improving the health of our atmosphere, preventing further ozone depletion. The mission is designed to last two years.

KENNEDY SPACE CENTER, FLA. - The Pegasus launch vehicle is moved back to its hangar at Vandenberg Air Force Base, Calif. The Pegasus will carry the SciSat-1 spacecraft in a 400-mile-high polar orbit to investigate processes that control the distribution of ozone in the upper atmosphere. The scientific mission of SciSat-1 is to measure and understand the chemical processes that control the distribution of ozone in the Earth’s atmosphere, particularly at high altitudes. The data from the satellite will provide Canadian and international scientists with improved measurements relating to global ozone processes and help policymakers assess existing environmental policy and develop protective measures for improving the health of our atmosphere, preventing further ozone depletion. The mission is designed to last two years.

KENNEDY SPACE CENTER, FLA. - The Pegasus launch vehicle is moved back to its hangar at Vandenberg Air Force Base, Calif. The Pegasus will carry the SciSat-1 spacecraft in a 400-mile-high polar orbit to investigate processes that control the distribution of ozone in the upper atmosphere. The scientific mission of SciSat-1 is to measure and understand the chemical processes that control the distribution of ozone in the Earth’s atmosphere, particularly at high altitudes. The data from the satellite will provide Canadian and international scientists with improved measurements relating to global ozone processes and help policymakers assess existing environmental policy and develop protective measures for improving the health of our atmosphere, preventing further ozone depletion. The mission is designed to last two years.

KSC-05-S-00124

From Vandenberg Air Force Base in California, this is Delta Launch Control at T minus 111 minutes, 34 seconds and...

Long Day Journey into Night

NASA Cassini spacecraft shows Saturn shadow cutting sharply across its rings as the orbits of ring particles carry...

Mars' Mysterious Methane

NASA's Curiosity rover used an instrument called SAM (Sample Analysis at Mars) to detect seasonal changes in...

ICON Launch Sequence

The Ionospheric Connection Explorer, or ICON, will study the frontier of space: the dynamic zone high in our...

Spacelab

This is an STS-66 mission onboard photo of the Space Shuttle Orbiter Atlantis showing the payload of the third...

Spacelab

This is an STS-66 mission onboard photo showing the Remote Manipulator System (RMS) moving toward one of the solar...

Cassini versus Saturn Illustration

As depicted in this illustration, Cassini will plunge into Saturn's atmosphere on Sept. 15, 2017. Using its attitude...

KSC-97pc769

Employees of Daimler-Benz Aerospace in the Multi-Payload Processing Facility install insulation on the Cryogenic...