360° panorama by EyeRevolution Virtual Tour Company London.
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http://www.360cities.net/image/canarywharf-1

360° panorama by EyeRevolution Virtual Tour Company London.
Click the image to open the interactive version.

http://www.360cities.net/image/leadenhall-1

360° panorama by EyeRevolution Virtual Tour Company London.
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http://www.360cities.net/image/stgeorges-windsor

360° panorama by EyeRevolution Virtual Tour Company London.
Click the image to open the interactive version.

http://www.360cities.net/image/stgeorges-windsor-001

360° panorama by EyeRevolution Virtual Tour Company London.
Click the image to open the interactive version.

http://www.360cities.net/image/thames-head

360° panorama by Eric AFONSO.
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http://www.360cities.net/image/central-sheet-house-chapada-diamandina-ba-brazil

360° panorama by Eric AFONSO.
Click the image to open the interactive version.

http://www.360cities.net/image/br-242-coqueiros-chapada-diamantina-ba-brazil

360° panorama by Eric AFONSO.
Click the image to open the interactive version.

http://www.360cities.net/image/basilica-our-lady-of-the-rosary-of-fatima-embu-das-artes-sp-brazil

360° panorama by Eric AFONSO.
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http://www.360cities.net/image/city-of-lencois-chapada-diamantina-ba-brazil

360° panorama by Raimo Haapala.
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The people named the house: Kilometer house. This is because it was the longest house of its era. The house is made of wood. Wikipedia: A 138-meter-long wooden house with a log structure, which was completed in 1923. The house representing the classicism of the 1920s was designed by Heikki Tiitola.The house is named after its length. The photo was taken from the other side of the street near the entrance to the tennis hall.

http://www.360cities.net/image/kilometritalo

360° panorama by Raimo Haapala.
Click the image to open the interactive version.

The people named the house: Kilometer house. This is because it was the longest house of its era. The house is made of wood. Wikipedia: A 138-meter-long wooden house with a log structure, which was completed in 1923. The house representing the classicism of the 1920s was designed by Heikki Tiitola.The house is named after its length. The photo was taken from the other side of the street near the entrance to the tennis hall.

https://www.360cities.net/image/kilometritalo

360° panorama by Ricardo Braescher.
Click the image to open the interactive version.

Late afternoon stroll along the new Gua'iba River waterfront in Porto Alegre. An architectural project that brought countless improvements to the city.

http://www.360cities.net/image/late-afternoon-stroll-along-the-new-guaiba-river-shore-in-porto-alegre

360° panorama by Ricardo Braescher.
Click the image to open the interactive version.

Late afternoon stroll along the new Gua'iba River waterfront in Porto Alegre. An architectural project that brought countless improvements to the city.

https://www.360cities.net/image/late-afternoon-stroll-along-the-new-guaiba-river-shore-in-porto-alegre

360° panorama by Jean-Louis Jondot .
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http://www.360cities.net/image/cuculet-octobre-2024-france

360° panorama by Bill Landenberger.
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This location at the end of King Trail, is part of the eastern section of the proposed Richmond Vale Rail Trail. While this is not part of the abandoned rail line, it will link with other cycleways and shared paths in Newcastle with Hexham via Pipeline Road and a bridge across Ironbark Creek, pictured here.  It will then be part of a broader 'Shiraz to Shore' network of shared paths.

http://www.360cities.net/image/kings-trail-from-60-metres

360° panorama by Bill Landenberger.
Click the image to open the interactive version.

This location at the end of King Trail, is part of the eastern section of the proposed Richmond Vale Rail Trail. While this is not part of the abandoned rail line, it will link with other cycleways and shared paths in Newcastle with Hexham via Pipeline Road and a bridge across Ironbark Creek, pictured here.  It will then be part of a broader 'Shiraz to Shore' network of shared paths.

https://www.360cities.net/image/kings-trail-from-60-metres

360° panorama by Andrew Bodrov.
Click the image to open the interactive version.

NASA's Mars Exploration Program (Image credit: NASA/JPL-Caltech)  Sol 1074: Bunsen Peak Piques Interest The panorama is made up of 96 individual Mastcam-Z images stitched together. The images were taken on Sol 1074 (February 27, 2024).   Perseverance has continued its traverse west through the Margin unit. As the rover drives, images and data are obtained using instruments such as Mastcam-Z, Navcam, and SuperCam to track any changes in the chemistry or appearance of the rocks.   Along the way, the science team used these images to pick out an exciting rock named Bunsen Peak. This rock was intriguing because it stands tall among the surrounding terrain and has some interesting surface texture on its left face, as seen in the image above. Another feature of the rock that stood out in the image was the near vertical face directly in front of the rover. A vertical face piques the interest of the science team for a couple of reasons: first, a vertical face of a rock could give a cross-sectional view of any chemical or physical layering that might be occurring in the rock. Second, a vertical face is usually less dust-covered, which is good news for our scientific instruments!   Dust coatings on a rock surface can obscure the actual chemistry of the rock underneath, so it is important to look for less dusty surfaces for obtaining data and pictures. For example, in the Bunsen Peak rock, you can see where there are curved or angled surfaces of the rock that are lighter in color due to dust accumulation. Other surfaces, however, such as the protruding lip of rock the rover’s arm is investigating, are more vertical and appear darker, indicating less dust cover and a better spot for the rover to explore. We chose that spot to probe the chemistry of Bunsen Peak.   The rover will continue its trek west, using its instruments to monitor for any more rocks that will complete the story of the Margin unit campaign.   Written by Eleanor Moreland, Ph.D. Student at Rice University   A key objective for Perseverance’s mission on Mars is astrobiology, including the search for signs of ancient microbial life. The rover will characterize the planet’s geology and past climate, pave the way for human exploration of the Red Planet, and be the first mission to collect and cache Martian rock and regolith (broken rock and dust). Subsequent NASA missions, in cooperation with ESA (European Space Agency), would send spacecraft to Mars to collect these sealed samples from the surface and return them to Earth for in-depth analysis. The Mars 2020 Perseverance mission is part of NASA’s Moon to Mars exploration approach, which includes Artemis missions to the Moon that will help prepare for human exploration of the Red Planet. NASA’s Jet Propulsion Laboratory, which is managed for the agency by Caltech in Pasadena, California, built and manages operations of the Perseverance rover.   Other panoramas of Mars by Perseverance rover: http://www.360cities.net/sets/perseverance-mars

https://www.360cities.net/image/mars-panorama-perseverance-rover-martian-solar-day-1074

360° panorama by Andrew Bodrov.
Click the image to open the interactive version.

NASA's Mars Exploration Program (Image credit: NASA/JPL-Caltech)  Sol 1074: Bunsen Peak Piques Interest The panorama is made up of 96 individual Mastcam-Z images stitched together. The images were taken on Sol 1074 (February 27, 2024).   Perseverance has continued its traverse west through the Margin unit. As the rover drives, images and data are obtained using instruments such as Mastcam-Z, Navcam, and SuperCam to track any changes in the chemistry or appearance of the rocks.   Along the way, the science team used these images to pick out an exciting rock named Bunsen Peak. This rock was intriguing because it stands tall among the surrounding terrain and has some interesting surface texture on its left face, as seen in the image above. Another feature of the rock that stood out in the image was the near vertical face directly in front of the rover. A vertical face piques the interest of the science team for a couple of reasons: first, a vertical face of a rock could give a cross-sectional view of any chemical or physical layering that might be occurring in the rock. Second, a vertical face is usually less dust-covered, which is good news for our scientific instruments!   Dust coatings on a rock surface can obscure the actual chemistry of the rock underneath, so it is important to look for less dusty surfaces for obtaining data and pictures. For example, in the Bunsen Peak rock, you can see where there are curved or angled surfaces of the rock that are lighter in color due to dust accumulation. Other surfaces, however, such as the protruding lip of rock the rover’s arm is investigating, are more vertical and appear darker, indicating less dust cover and a better spot for the rover to explore. We chose that spot to probe the chemistry of Bunsen Peak.   The rover will continue its trek west, using its instruments to monitor for any more rocks that will complete the story of the Margin unit campaign.   Written by Eleanor Moreland, Ph.D. Student at Rice University   A key objective for Perseverance’s mission on Mars is astrobiology, including the search for signs of ancient microbial life. The rover will characterize the planet’s geology and past climate, pave the way for human exploration of the Red Planet, and be the first mission to collect and cache Martian rock and regolith (broken rock and dust). Subsequent NASA missions, in cooperation with ESA (European Space Agency), would send spacecraft to Mars to collect these sealed samples from the surface and return them to Earth for in-depth analysis. The Mars 2020 Perseverance mission is part of NASA’s Moon to Mars exploration approach, which includes Artemis missions to the Moon that will help prepare for human exploration of the Red Planet. NASA’s Jet Propulsion Laboratory, which is managed for the agency by Caltech in Pasadena, California, built and manages operations of the Perseverance rover.   Other panoramas of Mars by Perseverance rover: http://www.360cities.net/sets/perseverance-mars

http://www.360cities.net/image/mars-panorama-perseverance-rover-martian-solar-day-1074

360° panorama by Valentin Arfire.
Click the image to open the interactive version.

http://www.360cities.net/image/img-20241009-120905-00-010

360° panorama by Valentin Arfire.
Click the image to open the interactive version.

https://www.360cities.net/image/img-20241009-120905-00-010