NASA Gallery

STEM Careers Panel at Shell Eco-marathon

Patricia Moore, communications strategist for the Moon to Mars Program Office in NASA's Exploration Systems...

STEM Careers Panel at Shell Eco-marathon

Torry Johnson, deputy associate administrator for STEM Engagement in NASA's Office of STEM Engagement, speaks to...

STEM Careers Panel at Shell Eco-marathon

Torry Johnson, deputy associate administrator for STEM Engagement in NASA's Office of STEM Engagement, speaks to...

First Ogive Panel Installed on Orion

The first of four Ogive panels is lifted by crane for installation on Orion's Launch Abort System inside the Launch...

90° Ogive Panel Installed on Orion

Inside the Launch Abort System Facility at NASA’s Kennedy Space Center in Florida, technicians have installed two of...

First Ogive Panel Installed on Orion

Inside the Launch Abort System Facility at NASA’s Kennedy Space Center in Florida, technicians monitor the progress...

Last Ogive Panel Installed on Orion

Inside the Launch Abort System Facility at NASA’s Kennedy Space Center in Florida, a crane brings the fourth and...

180° Ogive Panel Installed on Orion

Inside the Launch Abort System Facility at NASA's Kennedy Space Center in Florida, a crane brings the third of four...

180° Ogive Panel Installed on Orion

Technicians on work platforms monitor the progress as a crane brings the third of four Ogive panels closer for...

Orion Crew Module Cone Panel

A crew module cone panel with openings for windows – which will provide that spectacular view – is ready for...

90° Ogive Panel Installed on Orion

Technicians on work platforms continue the installation of four Ogive panels on Orion's Launch Abort System inside...

First Ogive Panel Installed on Orion

The first of four Ogive panels is lifted by crane for installation on Orion's Launch Abort System inside the Launch...

Solar panel and wind farm at the JSC Child Care Center

Solar panel and wind farm at the JSC Child Care Center. View of Jerry Rowlands, Energy Management and Control System...

“Hidden Figures to Modern Figures” Panel Discussion at Norfolk State University

“Hidden Figures to Modern Figures” panel discussion with students at Norfolk State University on February 6, 2018....

With a laser beam centered on its solar panel, a model aircraft is checked out by technician Tony Frakowiak and researcher Tim Blackwell before its power-beamed demonstration flight.

With a laser beam centered on its solar panel, a lightweight model aircraft is checked out by technician Tony...

COTS Initiative Panel Discussion

L-R: Alan Lindenmoyer, Manager of Commercial Crew and Cargo Program, NASA; Gwynne Shotwell, President, SpaceX; Frank...

KENNEDY SPACE CENTER, FLA. - Jim Landy, NDE specialist with United Space Alliance (USA), examines a Reinforced Carbon Carbon panel using flash thermography. A relatively new procedure at KSC, thermography uses high intensity light to heat areas of the panels. The panels are then immediately scanned with an infrared camera. As the panels cool, any internal flaws are revealed. The gray carbon composite RCC panels are attached to the leading edge of the wing of the orbiters. They have sufficient strength to withstand the aerodynamic forces experienced during launch and reentry, which can reach as high as 800 pounds per square foot. The operating range of RCC is from minus 250º F to about 3,000º F, the temperature produced by friction with the atmosphere during reentry. The panels will be installed on the orbiter Discovery, designated for the first Return to Flight mission, STS-114.

KENNEDY SPACE CENTER, FLA. - Jim Landy, NDE specialist with USA, points to an area of a Reinforced Carbon Carbon panel just examined using flash thermography. A relatively new procedure at KSC, thermography uses high intensity light to heat areas of the panels. The panels are then immediately scanned with an infrared camera. As the panels cool, any internal flaws are revealed. The gray carbon composite RCC panels are attached to the leading edge of the wing of the orbiters. They have sufficient strength to withstand the aerodynamic forces experienced during launch and reentry, which can reach as high as 800 pounds per square foot. The operating range of RCC is from minus 250º F to about 3,000º F, the temperature produced by friction with the atmosphere during reentry. The panels will be installed on the orbiter Discovery, designated for the first Return to Flight mission, STS-114.

KENNEDY SPACE CENTER, FLA. - Dan Phillips (left) and Donald Nielen, with United Space Alliance, watch a monitor as Jim Landy, NDE specialist with USA, prepares to examine a Reinforced Carbon Carbon panel (on the table, center) using flash thermography. A relatively new procedure at KSC, thermography uses high intensity light to heat areas of the panels. The panels are then immediately scanned with an infrared camera. As the panels cool, any internal flaws are revealed. The gray carbon composite RCC panels are attached to the leading edge of the wing of the orbiters. They have sufficient strength to withstand the aerodynamic forces experienced during launch and reentry, which can reach as high as 800 pounds per square foot. The operating range of RCC is from minus 250º F to about 3,000º F, the temperature produced by friction with the atmosphere during reentry. The panels will be installed on the orbiter Discovery, designated for the first Return to Flight mission, STS-114.

KENNEDY SPACE CENTER, FLA. - Jim Landy, NDE specialist with United Space Alliance, sets up equipment to examine a Reinforced Carbon Carbon panel using flash thermography. A relatively new procedure at KSC, thermography uses high intensity light to heat areas of the panels. The panels are then immediately scanned with an infrared camera. As the panels cool, any internal flaws are revealed. The gray carbon composite RCC panels are attached to the leading edge of the wing of the orbiters. They have sufficient strength to withstand the aerodynamic forces experienced during launch and reentry, which can reach as high as 800 pounds per square foot. The operating range of RCC is from minus 250º F to about 3,000º F, the temperature produced by friction with the atmosphere during reentry. The panels will be installed on the orbiter Discovery, designated for the first Return to Flight mission, STS-114.

KENNEDY SPACE CENTER, FLA. - Jim Landy, NDE specialist with United Space Alliance (USA), prepares equipment to examine a Reinforced Carbon Carbon panel using flash thermography. A relatively new procedure at KSC, thermography uses high intensity light to heat areas of the panels. The panels are then immediately scanned with an infrared camera. As the panels cool, any internal flaws are revealed. The gray carbon composite RCC panels are attached to the leading edge of the wing of the orbiters. They have sufficient strength to withstand the aerodynamic forces experienced during launch and reentry, which can reach as high as 800 pounds per square foot. The operating range of RCC is from minus 250º F to about 3,000º F, the temperature produced by friction with the atmosphere during reentry. The panels will be installed on the orbiter Discovery, designated for the first Return to Flight mission, STS-114.

Black History Month Event

In recognition of Black History Month, the Black Employee Strategy Team hosted a panel discussion featuring some of...

Black History Month Event

In recognition of Black History Month, the Black Employee Strategy Team hosted a panel discussion featuring some of...

KSC-2014-2375

CAPE CANAVERAL, Fla. – Inside the Vehicle Assembly Building at NASA’s Kennedy Space Center in Florida, a GIZMO...