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Honour staircase of Ca Rezzonico in Venice, Italy.
Honour staircase of Ca Rezzonico in Venice, Italy.

TEC4575561: Honour staircase of Ca Rezzonico in Venice, Italy. / Bridgeman Images

ID: TEC4575561

Honour staircase of Ca Rezzonico in Venice, Italy.

Moon about 13 days - Gibous Moon from November 3, 2006 to 22
Moon about 13 days - Gibous Moon from November 3, 2006 to 22

PIX4575603: Moon about 13 days - Gibous Moon from November 3, 2006 to 22 / Bridgeman Images

ID: PIX4575603

Moon about 13 days - Gibous Moon from November 3, 2006 to 22

Lido Beach in Venice, Italy.
Lido Beach in Venice, Italy.

TEC4575613: Lido Beach in Venice, Italy. / Bridgeman Images

ID: TEC4575613

Lido Beach in Venice, Italy.

11 day gibbous moon
11 day gibbous moon

PIX4575620: 11 day gibbous moon / Bridgeman Images

ID: PIX4575620

11 day gibbous moon

12 day gibbous moon
12 day gibbous moon

PIX4575642: 12 day gibbous moon / Bridgeman Images

ID: PIX4575642

12 day gibbous moon

A few hours after the full moon
A few hours after the full moon

PIX4575674: A few hours after the full moon / Bridgeman Images

ID: PIX4575674

A few hours after the full moon

Color Moon - Colorful Moon - The Moon looks white, even orange or red if it is close to the horizon. In reality different shades exist depending on the composition of the soil. By saturating the colours with a digital treatment, the seas (covered with solidified lava) are mostly blue or rust, while the heavily craterized areas are rosatra. 12 July 2006. The Moon seems to be simply white, or orange/red if it is near the horizon. But in fact some colors appear depending on the nature of its terrains. With a digital process to saturate its color, the seas (covered by solid lavas) are mostly blue or orange, and craterised areas are pinkish
Color Moon - Colorful Moon - The Moon looks white, even orange or red if it is close to the horizon. In reality different shades exist depending on the composition of the soil. By saturating the colours with a digital treatment, the seas (covered with solidified lava) are mostly blue or rust, while the heavily craterized areas are rosatra. 12 July 2006. The Moon seems to be simply white, or orange/red if it is near the horizon. But in fact some colors appear depending on the nature of its terrains. With a digital process to saturate its color, the seas (covered by solid lavas) are mostly blue or orange, and craterised areas are pinkish

PIX4575708: Color Moon - Colorful Moon - The Moon looks white, even orange or red if it is close to the horizon. In reality different shades exist depending on the composition of the soil. By saturating the colours with a digital treatment, the seas (covered with solidified lava) are mostly blue or rust, while the heavily craterized areas are rosatra. 12 July 2006. The Moon seems to be simply white, or orange/red if it is near the horizon. But in fact some colors appear depending on the nature of its terrains. With a digital process to saturate its color, the seas (covered by solid lavas) are mostly blue or orange, and craterised areas are pinkish / Bridgeman Images

ID: PIX4575708

Color Moon - Colorful Moon - The Moon looks white, even orange or red if it is close to the horizon. In reality different shades exist depending on the composition of the soil. By saturating the colours with a digital treatment, the seas (covered with solidified lava) are mostly blue or rust, while the heavily craterized areas are rosatra. 12 July 2006. The Moon seems to be simply white, or orange/red if it is near the horizon. But in fact some colors appear depending on the nature of its terrains. With a digital process to saturate its color, the seas (covered by solid lavas) are mostly blue or orange, and craterised areas are pinkish

Moon about 18 days - Moon 11 - 09 - 2006 Mosaic of 62 images obtained with a telescope and webcam
Moon about 18 days - Moon 11 - 09 - 2006 Mosaic of 62 images obtained with a telescope and webcam

PIX4575775: Moon about 18 days - Moon 11 - 09 - 2006 Mosaic of 62 images obtained with a telescope and webcam / Bridgeman Images

ID: PIX4575775

Moon about 18 days - Moon 11 - 09 - 2006 Mosaic of 62 images obtained with a telescope and webcam

Moon of about 25 days - A 25 day moon - Mosaic of 11 images. 15 August 2009. A 25 day moon, waning crescent. Mosaic of 11 images. August 15, 2009
Moon of about 25 days - A 25 day moon - Mosaic of 11 images. 15 August 2009. A 25 day moon, waning crescent. Mosaic of 11 images. August 15, 2009

PIX4575839: Moon of about 25 days - A 25 day moon - Mosaic of 11 images. 15 August 2009. A 25 day moon, waning crescent. Mosaic of 11 images. August 15, 2009 / Bridgeman Images

ID: PIX4575839

Moon of about 25 days - A 25 day moon - Mosaic of 11 images. 15 August 2009. A 25 day moon, waning crescent. Mosaic of 11 images. August 15, 2009

19 day gibbous moon
19 day gibbous moon

PIX4575846: 19 day gibbous moon / Bridgeman Images

ID: PIX4575846

19 day gibbous moon

Roman roofs, Rome, Italy. Photo 25/01/98.
Roman roofs, Rome, Italy. Photo 25/01/98.

TEC4575925: Roman roofs, Rome, Italy. Photo 25/01/98. / Bridgeman Images

ID: TEC4575925

Roman roofs, Rome, Italy. Photo 25/01/98.

La Colonne Vendome, Place Vendome, the night in Paris. Today's square dates back to 1699 and was designed by Jules Hardouin Mansart (1646-1708). And it was only with the piercing of the Rue de la Paix that the Vendome Column was erected in 1806 by Napoleon Bonaparte (1769-1821) to the glory of the victors of Austerlitz (1805). An admirer of Roman Antiquity, the Emperor took as model the Trajane column raised in Rome and had his statue erected as an imperator by Antoine Chaudet (1763-1810). After the regime changes, Napoleon III (1808-1873) installed a copy of the statue of the Emperor by Augustine Dumont (1801-1884).
La Colonne Vendome, Place Vendome, the night in Paris. Today's square dates back to 1699 and was designed by Jules Hardouin Mansart (1646-1708). And it was only with the piercing of the Rue de la Paix that the Vendome Column was erected in 1806 by Napoleon Bonaparte (1769-1821) to the glory of the victors of Austerlitz (1805). An admirer of Roman Antiquity, the Emperor took as model the Trajane column raised in Rome and had his statue erected as an imperator by Antoine Chaudet (1763-1810). After the regime changes, Napoleon III (1808-1873) installed a copy of the statue of the Emperor by Augustine Dumont (1801-1884).

OMG4606451: La Colonne Vendome, Place Vendome, the night in Paris. Today's square dates back to 1699 and was designed by Jules Hardouin Mansart (1646-1708). And it was only with the piercing of the Rue de la Paix that the Vendome Column was erected in 1806 by Napoleon Bonaparte (1769-1821) to the glory of the victors of Austerlitz (1805). An admirer of Roman Antiquity, the Emperor took as model the Trajane column raised in Rome and had his statue erected as an imperator by Antoine Chaudet (1763-1810). After the regime changes, Napoleon III (1808-1873) installed a copy of the statue of the Emperor by Augustine Dumont (1801-1884). / Bridgeman Images

ID: OMG4606451

La Colonne Vendome, Place Vendome, the night in Paris. Today's square dates back to 1699 and was designed by Jules Hardouin Mansart (1646-1708). And it was only with the piercing of the Rue de la Paix that the Vendome Column was erected in 1806 by Napoleon Bonaparte (1769-1821) to the glory of the victors of Austerlitz (1805). An admirer of Roman Antiquity, the Emperor took as model the Trajane column raised in Rome and had his statue erected as an imperator by Antoine Chaudet (1763-1810). After the regime changes, Napoleon III (1808-1873) installed a copy of the statue of the Emperor by Augustine Dumont (1801-1884).

Rover Opportunity sur Mars - Artist view - Rover Opportunity on martian surface - Artist view - Photograph showing the rover Opportunity on the edge of the Victoria crater on Mars. This image superimposes an artist's concept of the Mars Exploration Rover Opportunity on the rim of Victoria Crater. It is done to give a sense of scale
Rover Opportunity sur Mars - Artist view - Rover Opportunity on martian surface - Artist view - Photograph showing the rover Opportunity on the edge of the Victoria crater on Mars. This image superimposes an artist's concept of the Mars Exploration Rover Opportunity on the rim of Victoria Crater. It is done to give a sense of scale

PIX4606589: Rover Opportunity sur Mars - Artist view - Rover Opportunity on martian surface - Artist view - Photograph showing the rover Opportunity on the edge of the Victoria crater on Mars. This image superimposes an artist's concept of the Mars Exploration Rover Opportunity on the rim of Victoria Crater. It is done to give a sense of scale / Bridgeman Images

ID: PIX4606589

Rover Opportunity sur Mars - Artist view - Rover Opportunity on martian surface - Artist view - Photograph showing the rover Opportunity on the edge of the Victoria crater on Mars. This image superimposes an artist's concept of the Mars Exploration Rover Opportunity on the rim of Victoria Crater. It is done to give a sense of scale

Mars Polar Lander - Artist view - Mars Polar Lander spaceprobe - Artist view - The American Mars Polar Lander probe, launched on January 3, 1999, was scheduled to land in December 1999 near the southern polar cap of Mars. Contact with the probe was interrupted on 3 December 1999, when it entered the Martian atmosphere. The Mars Polar Lander is shown on the surface of Mars. The spacecraft was launched in january 1999 to Mars to land near the southern polar cap in December 1999 and carry out a three - month mission to search for traces of subsurface water in this frozen, layered terrain. The contact with the spacecraft was lost on December 9, 1999, shortly after it entered the Martian atmosphere
Mars Polar Lander - Artist view - Mars Polar Lander spaceprobe - Artist view - The American Mars Polar Lander probe, launched on January 3, 1999, was scheduled to land in December 1999 near the southern polar cap of Mars. Contact with the probe was interrupted on 3 December 1999, when it entered the Martian atmosphere. The Mars Polar Lander is shown on the surface of Mars. The spacecraft was launched in january 1999 to Mars to land near the southern polar cap in December 1999 and carry out a three - month mission to search for traces of subsurface water in this frozen, layered terrain. The contact with the spacecraft was lost on December 9, 1999, shortly after it entered the Martian atmosphere

PIX4606690: Mars Polar Lander - Artist view - Mars Polar Lander spaceprobe - Artist view - The American Mars Polar Lander probe, launched on January 3, 1999, was scheduled to land in December 1999 near the southern polar cap of Mars. Contact with the probe was interrupted on 3 December 1999, when it entered the Martian atmosphere. The Mars Polar Lander is shown on the surface of Mars. The spacecraft was launched in january 1999 to Mars to land near the southern polar cap in December 1999 and carry out a three - month mission to search for traces of subsurface water in this frozen, layered terrain. The contact with the spacecraft was lost on December 9, 1999, shortly after it entered the Martian atmosphere / Bridgeman Images

ID: PIX4606690

Mars Polar Lander - Artist view - Mars Polar Lander spaceprobe - Artist view - The American Mars Polar Lander probe, launched on January 3, 1999, was scheduled to land in December 1999 near the southern polar cap of Mars. Contact with the probe was interrupted on 3 December 1999, when it entered the Martian atmosphere. The Mars Polar Lander is shown on the surface of Mars. The spacecraft was launched in january 1999 to Mars to land near the southern polar cap in December 1999 and carry out a three - month mission to search for traces of subsurface water in this frozen, layered terrain. The contact with the spacecraft was lost on December 9, 1999, shortly after it entered the Martian atmosphere

The Mars Reconnaissance Orbiter probe - Artist's View - The American Mars Reconnaissance Orbiter probe was launched in August 2005 and began its observations in March in October 2006. View of its orbit around Mars
The Mars Reconnaissance Orbiter probe - Artist's View - The American Mars Reconnaissance Orbiter probe was launched in August 2005 and began its observations in March in October 2006. View of its orbit around Mars

PIX4606704: The Mars Reconnaissance Orbiter probe - Artist's View - The American Mars Reconnaissance Orbiter probe was launched in August 2005 and began its observations in March in October 2006. View of its orbit around Mars / Bridgeman Images

ID: PIX4606704

The Mars Reconnaissance Orbiter probe - Artist's View - The American Mars Reconnaissance Orbiter probe was launched in August 2005 and began its observations in March in October 2006. View of its orbit around Mars

American Phoenix probe tested at Lockheed Martin Space Systems - 09 - 200
American Phoenix probe tested at Lockheed Martin Space Systems - 09 - 200

PIX4606734: American Phoenix probe tested at Lockheed Martin Space Systems - 09 - 200 / Bridgeman Images

ID: PIX4606734

American Phoenix probe tested at Lockheed Martin Space Systems - 09 - 200

Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars starting in 2012. Test at CNES (Toulouse) in july 2009 of the animated replica of NASA's martian Rover MSL built by english industrial BTS students. Mars Science Laboratory (MSL) is a rover that will study Mars' habitability. Launch is scheduled in the fall of 2011
Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars starting in 2012. Test at CNES (Toulouse) in july 2009 of the animated replica of NASA's martian Rover MSL built by english industrial BTS students. Mars Science Laboratory (MSL) is a rover that will study Mars' habitability. Launch is scheduled in the fall of 2011

PIX4606833: Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars starting in 2012. Test at CNES (Toulouse) in july 2009 of the animated replica of NASA's martian Rover MSL built by english industrial BTS students. Mars Science Laboratory (MSL) is a rover that will study Mars' habitability. Launch is scheduled in the fall of 2011 / Bridgeman Images

ID: PIX4606833

Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars starting in 2012. Test at CNES (Toulouse) in july 2009 of the animated replica of NASA's martian Rover MSL built by english industrial BTS students. Mars Science Laboratory (MSL) is a rover that will study Mars' habitability. Launch is scheduled in the fall of 2011

Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012
Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012

PIX4606876: Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012 / Bridgeman Images

ID: PIX4606876

Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012

Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012
Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012

PIX4606881: Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012 / Bridgeman Images

ID: PIX4606881

Model of the Rover MSL - Model Rover MSL - Test at CNES of the model of the Rover MSL in July 2009. This model at scale 1 was made by students of BTS section. Mars Science Laboratory (MSL), named Curiosity, is a NASA rover to explore the surface of Mars from 2012

Planted Roman terrace, Rome, Italy.
Planted Roman terrace, Rome, Italy.

TEC4575959: Planted Roman terrace, Rome, Italy. / Bridgeman Images

ID: TEC4575959

Planted Roman terrace, Rome, Italy.

Moon of 26 day
Moon of 26 day

PIX4575964: Moon of 26 day / Bridgeman Images

ID: PIX4575964

Moon of 26 day

The Tiber in Rome, Italy. Photography 25/01/98.
The Tiber in Rome, Italy. Photography 25/01/98.

TEC4575975: The Tiber in Rome, Italy. Photography 25/01/98. / Bridgeman Images

ID: TEC4575975

The Tiber in Rome, Italy. Photography 25/01/98.

Mausolee of Suryarman II, Angkor vat (1113-1150) in Cambodia.
Mausolee of Suryarman II, Angkor vat (1113-1150) in Cambodia.

LBY4576130: Mausolee of Suryarman II, Angkor vat (1113-1150) in Cambodia. / Bridgeman Images

ID: LBY4576130

Mausolee of Suryarman II, Angkor vat (1113-1150) in Cambodia.

Issy les Moulineaux (Hauts de Seine).
Issy les Moulineaux (Hauts de Seine).

TEC4576233: Issy les Moulineaux (Hauts de Seine). / Bridgeman Images

ID: TEC4576233

Issy les Moulineaux (Hauts de Seine).

The boulevard Peripherique is at the height of Porte de Sevres, Paris.
The boulevard Peripherique is at the height of Porte de Sevres, Paris.

TEC4576310: The boulevard Peripherique is at the height of Porte de Sevres, Paris. / Bridgeman Images

ID: TEC4576310

The boulevard Peripherique is at the height of Porte de Sevres, Paris.

The ZAC Saint Lucie in Issy les Moulineaux (Hauts de Seine).
The ZAC Saint Lucie in Issy les Moulineaux (Hauts de Seine).

TEC4576414: The ZAC Saint Lucie in Issy les Moulineaux (Hauts de Seine). / Bridgeman Images

ID: TEC4576414

The ZAC Saint Lucie in Issy les Moulineaux (Hauts de Seine).

Ile Saint Germain to Issy les Moulineaux (Hauts de Seine).
Ile Saint Germain to Issy les Moulineaux (Hauts de Seine).

TEC4576425: Ile Saint Germain to Issy les Moulineaux (Hauts de Seine). / Bridgeman Images

ID: TEC4576425

Ile Saint Germain to Issy les Moulineaux (Hauts de Seine).

Parisian apartment, Paris.
Parisian apartment, Paris.

TEC4549909: Parisian apartment, Paris. / Bridgeman Images

ID: TEC4549909

Parisian apartment, Paris.

Stardust Probe Sample Collector Analysis - Stardust Probe Sample Collector Analysis - Scientist Studying Comet Grains Imprisoned in Aerogel
Stardust Probe Sample Collector Analysis - Stardust Probe Sample Collector Analysis - Scientist Studying Comet Grains Imprisoned in Aerogel

PIX4607230: Stardust Probe Sample Collector Analysis - Stardust Probe Sample Collector Analysis - Scientist Studying Comet Grains Imprisoned in Aerogel / Bridgeman Images

ID: PIX4607230

Stardust Probe Sample Collector Analysis - Stardust Probe Sample Collector Analysis - Scientist Studying Comet Grains Imprisoned in Aerogel

Mausolee housing the remains of Isa Khan (1529-1599), one of the faithful of Sher Shah (1486-1545), on the site of Emperor Humayun's tomb (1508-1556) in Delhi, India. Photography 20/01/06.
Mausolee housing the remains of Isa Khan (1529-1599), one of the faithful of Sher Shah (1486-1545), on the site of Emperor Humayun's tomb (1508-1556) in Delhi, India. Photography 20/01/06.

TEC4607270: Mausolee housing the remains of Isa Khan (1529-1599), one of the faithful of Sher Shah (1486-1545), on the site of Emperor Humayun's tomb (1508-1556) in Delhi, India. Photography 20/01/06. / Bridgeman Images

ID: TEC4607270

Mausolee housing the remains of Isa Khan (1529-1599), one of the faithful of Sher Shah (1486-1545), on the site of Emperor Humayun's tomb (1508-1556) in Delhi, India. Photography 20/01/06.

Artist's view of the New Horizons probe near Pluto - The New Horizons spacecraft near Pluto - Artist's view of the New Horizons probe near Pluto and its largest satellite Charon. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it will reach in 2015 and Kuiper's objects in 2020. Artist's concept of the New Horizons spacecraft as it approaches Pluto and its largest moon, Charon, in July 2015. The craft's miniature cameras, radio science experiment, ultraviolet and infrared spectrometers and space plasma experiments will characterize the global geology and geomorphology of Pluto and Charon, map their surface compositions and temperatures, and examine Pluto's atmosphere in detail. The spacecraft's most prominent design feature is a nearly 7 - foot (2.1 - meter) dish antenna, through which it will communicate with Earth from as far as 4.7 billion miles (7.5 billion kilometers) away
Artist's view of the New Horizons probe near Pluto - The New Horizons spacecraft near Pluto - Artist's view of the New Horizons probe near Pluto and its largest satellite Charon. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it will reach in 2015 and Kuiper's objects in 2020. Artist's concept of the New Horizons spacecraft as it approaches Pluto and its largest moon, Charon, in July 2015. The craft's miniature cameras, radio science experiment, ultraviolet and infrared spectrometers and space plasma experiments will characterize the global geology and geomorphology of Pluto and Charon, map their surface compositions and temperatures, and examine Pluto's atmosphere in detail. The spacecraft's most prominent design feature is a nearly 7 - foot (2.1 - meter) dish antenna, through which it will communicate with Earth from as far as 4.7 billion miles (7.5 billion kilometers) away

PIX4607277: Artist's view of the New Horizons probe near Pluto - The New Horizons spacecraft near Pluto - Artist's view of the New Horizons probe near Pluto and its largest satellite Charon. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it will reach in 2015 and Kuiper's objects in 2020. Artist's concept of the New Horizons spacecraft as it approaches Pluto and its largest moon, Charon, in July 2015. The craft's miniature cameras, radio science experiment, ultraviolet and infrared spectrometers and space plasma experiments will characterize the global geology and geomorphology of Pluto and Charon, map their surface compositions and temperatures, and examine Pluto's atmosphere in detail. The spacecraft's most prominent design feature is a nearly 7 - foot (2.1 - meter) dish antenna, through which it will communicate with Earth from as far as 4.7 billion miles (7.5 billion kilometers) away / Bridgeman Images

ID: PIX4607277

Artist's view of the New Horizons probe near Pluto - The New Horizons spacecraft near Pluto - Artist's view of the New Horizons probe near Pluto and its largest satellite Charon. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it will reach in 2015 and Kuiper's objects in 2020. Artist's concept of the New Horizons spacecraft as it approaches Pluto and its largest moon, Charon, in July 2015. The craft's miniature cameras, radio science experiment, ultraviolet and infrared spectrometers and space plasma experiments will characterize the global geology and geomorphology of Pluto and Charon, map their surface compositions and temperatures, and examine Pluto's atmosphere in detail. The spacecraft's most prominent design feature is a nearly 7 - foot (2.1 - meter) dish antenna, through which it will communicate with Earth from as far as 4.7 billion miles (7.5 billion kilometers) away

Facade of an office building in New Delhi, India.
Facade of an office building in New Delhi, India.

TEC4607296: Facade of an office building in New Delhi, India. / Bridgeman Images

ID: TEC4607296

Facade of an office building in New Delhi, India.

The New Horizons probe - The New Horizons spacecraft - The New Horizons probe at Nasa's Kennedy Space Center in December 2005. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it reached in 2015 and Kuiper's objects in 2020. In the Payload Hazardous Servicing Facility, the New Horizons spacecraft waits for encapsulation within the fairing sections waiting nearby. The fairing protects the spacecraft during launch and flight through the atmosphere. Once out of the atmosphere, the fairing is jettisoned. The compact 1,060 - pound New Horizons probe carries seven scientific instruments that will characterize the global geology and geomorphology of Pluto and its moon Charon, map their surface compositions and temperatures, and examine Pluto's complex atmosphere. After that, flybys of Kuiper Belt objects from even farther in the solar system may be undertaken in an extended mission. New Horizons is the first mission in Nasa's New Frontiers program of medium - class planetary missions. The spacecraft, designed for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md., will fly by Pluto and Charon as early as summer 2015
The New Horizons probe - The New Horizons spacecraft - The New Horizons probe at Nasa's Kennedy Space Center in December 2005. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it reached in 2015 and Kuiper's objects in 2020. In the Payload Hazardous Servicing Facility, the New Horizons spacecraft waits for encapsulation within the fairing sections waiting nearby. The fairing protects the spacecraft during launch and flight through the atmosphere. Once out of the atmosphere, the fairing is jettisoned. The compact 1,060 - pound New Horizons probe carries seven scientific instruments that will characterize the global geology and geomorphology of Pluto and its moon Charon, map their surface compositions and temperatures, and examine Pluto's complex atmosphere. After that, flybys of Kuiper Belt objects from even farther in the solar system may be undertaken in an extended mission. New Horizons is the first mission in Nasa's New Frontiers program of medium - class planetary missions. The spacecraft, designed for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md., will fly by Pluto and Charon as early as summer 2015

PIX4607348: The New Horizons probe - The New Horizons spacecraft - The New Horizons probe at Nasa's Kennedy Space Center in December 2005. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it reached in 2015 and Kuiper's objects in 2020. In the Payload Hazardous Servicing Facility, the New Horizons spacecraft waits for encapsulation within the fairing sections waiting nearby. The fairing protects the spacecraft during launch and flight through the atmosphere. Once out of the atmosphere, the fairing is jettisoned. The compact 1,060 - pound New Horizons probe carries seven scientific instruments that will characterize the global geology and geomorphology of Pluto and its moon Charon, map their surface compositions and temperatures, and examine Pluto's complex atmosphere. After that, flybys of Kuiper Belt objects from even farther in the solar system may be undertaken in an extended mission. New Horizons is the first mission in Nasa's New Frontiers program of medium - class planetary missions. The spacecraft, designed for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md., will fly by Pluto and Charon as early as summer 2015 / Bridgeman Images

ID: PIX4607348

The New Horizons probe - The New Horizons spacecraft - The New Horizons probe at Nasa's Kennedy Space Center in December 2005. The New Horizons probe was launched on 19 January 2006 to Jupiter, then Pluto and Charon, which it reached in 2015 and Kuiper's objects in 2020. In the Payload Hazardous Servicing Facility, the New Horizons spacecraft waits for encapsulation within the fairing sections waiting nearby. The fairing protects the spacecraft during launch and flight through the atmosphere. Once out of the atmosphere, the fairing is jettisoned. The compact 1,060 - pound New Horizons probe carries seven scientific instruments that will characterize the global geology and geomorphology of Pluto and its moon Charon, map their surface compositions and temperatures, and examine Pluto's complex atmosphere. After that, flybys of Kuiper Belt objects from even farther in the solar system may be undertaken in an extended mission. New Horizons is the first mission in Nasa's New Frontiers progra

Congreso district of Buenos Aires (Argentina).
Congreso district of Buenos Aires (Argentina).

OMG4607566: Congreso district of Buenos Aires (Argentina). / Bridgeman Images

ID: OMG4607566

Congreso district of Buenos Aires (Argentina).

Microcentro district in Buenos Aires (Argentina).
Microcentro district in Buenos Aires (Argentina).

OMG4607629: Microcentro district in Buenos Aires (Argentina). / Bridgeman Images

ID: OMG4607629

Microcentro district in Buenos Aires (Argentina).

The centre of Brno, Moravia, Czech Republic.
The centre of Brno, Moravia, Czech Republic.

OMG4607860: The centre of Brno, Moravia, Czech Republic. / Bridgeman Images

ID: OMG4607860

The centre of Brno, Moravia, Czech Republic.


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