XB-1 Supersonic Prototype Makes Second Flight

XB-1 Supersonic Prototype Makes Second Flight

Handout photo shows Boom Supersonic’s XB-1 demonstrator aircraft completing his second test flight on August 26, 2024 in Mojave Air and Spaceport, California, USA. The flight, led by Chief Test Pilot Tristan “Geppetto” Brandenburg, focused on critical evaluations of the aircraft’s systems. This included testing the retraction and extension of the landing gear, as well as assessing a digital stability augmentation system known as a roll damper to enhance in-flight stability. Additionally, tufting, a technique used to visualize airflow, was applied to the right wing to ensure aerodynamic performance. The XB-1 took to the skies for the first time on March 22, 2024, safely achieving an altitude of 7,120 feet (2,100 meters) and speeds up to 238 knots (273 mph). The XB-1 serves as a demonstrator for Boom’s upcoming Overture airliner. The supersonic passenger jet is poised to seat between 64 and 80 passengers and fly up to 4,250 nautical miles (7,867 kilometers) at a cruising speed of Mach 1.7. The production of the

XB-1 Supersonic Prototype Makes Second Flight

XB-1 Supersonic Prototype Makes Second Flight

Handout photo shows Boom Supersonic’s XB-1 demonstrator aircraft completing his second test flight on August 26, 2024 in Mojave Air and Spaceport, California, USA. The flight, led by Chief Test Pilot Tristan “Geppetto” Brandenburg, focused on critical evaluations of the aircraft’s systems. This included testing the retraction and extension of the landing gear, as well as assessing a digital stability augmentation system known as a roll damper to enhance in-flight stability. Additionally, tufting, a technique used to visualize airflow, was applied to the right wing to ensure aerodynamic performance. The XB-1 took to the skies for the first time on March 22, 2024, safely achieving an altitude of 7,120 feet (2,100 meters) and speeds up to 238 knots (273 mph). The XB-1 serves as a demonstrator for Boom’s upcoming Overture airliner. The supersonic passenger jet is poised to seat between 64 and 80 passengers and fly up to 4,250 nautical miles (7,867 kilometers) at a cruising speed of Mach 1.7. The production of the

XB-1 Supersonic Prototype Makes Second Flight

XB-1 Supersonic Prototype Makes Second Flight

Handout photo shows Boom Supersonic’s XB-1 demonstrator aircraft completing his second test flight on August 26, 2024 in Mojave Air and Spaceport, California, USA. The flight, led by Chief Test Pilot Tristan “Geppetto” Brandenburg, focused on critical evaluations of the aircraft’s systems. This included testing the retraction and extension of the landing gear, as well as assessing a digital stability augmentation system known as a roll damper to enhance in-flight stability. Additionally, tufting, a technique used to visualize airflow, was applied to the right wing to ensure aerodynamic performance. The XB-1 took to the skies for the first time on March 22, 2024, safely achieving an altitude of 7,120 feet (2,100 meters) and speeds up to 238 knots (273 mph). The XB-1 serves as a demonstrator for Boom’s upcoming Overture airliner. The supersonic passenger jet is poised to seat between 64 and 80 passengers and fly up to 4,250 nautical miles (7,867 kilometers) at a cruising speed of Mach 1.7. The production of the

XB-1 Supersonic Prototype Makes Second Flight

XB-1 Supersonic Prototype Makes Second Flight

Handout photo shows Boom Supersonic’s XB-1 demonstrator aircraft completing his second test flight on August 26, 2024 in Mojave Air and Spaceport, California, USA. The flight, led by Chief Test Pilot Tristan “Geppetto” Brandenburg, focused on critical evaluations of the aircraft’s systems. This included testing the retraction and extension of the landing gear, as well as assessing a digital stability augmentation system known as a roll damper to enhance in-flight stability. Additionally, tufting, a technique used to visualize airflow, was applied to the right wing to ensure aerodynamic performance. The XB-1 took to the skies for the first time on March 22, 2024, safely achieving an altitude of 7,120 feet (2,100 meters) and speeds up to 238 knots (273 mph). The XB-1 serves as a demonstrator for Boom’s upcoming Overture airliner. The supersonic passenger jet is poised to seat between 64 and 80 passengers and fly up to 4,250 nautical miles (7,867 kilometers) at a cruising speed of Mach 1.7. The production of the

XB-1 Supersonic Prototype Makes Second Flight

XB-1 Supersonic Prototype Makes Second Flight

Handout photo shows Boom Supersonic’s XB-1 demonstrator aircraft completing his second test flight on August 26, 2024 in Mojave Air and Spaceport, California, USA. The flight, led by Chief Test Pilot Tristan “Geppetto” Brandenburg, focused on critical evaluations of the aircraft’s systems. This included testing the retraction and extension of the landing gear, as well as assessing a digital stability augmentation system known as a roll damper to enhance in-flight stability. Additionally, tufting, a technique used to visualize airflow, was applied to the right wing to ensure aerodynamic performance. The XB-1 took to the skies for the first time on March 22, 2024, safely achieving an altitude of 7,120 feet (2,100 meters) and speeds up to 238 knots (273 mph). The XB-1 serves as a demonstrator for Boom’s upcoming Overture airliner. The supersonic passenger jet is poised to seat between 64 and 80 passengers and fly up to 4,250 nautical miles (7,867 kilometers) at a cruising speed of Mach 1.7. The production of the

XB-1 Supersonic Prototype Makes Second Flight

XB-1 Supersonic Prototype Makes Second Flight

Handout photo shows Boom Supersonic’s XB-1 demonstrator aircraft completing his second test flight on August 26, 2024 in Mojave Air and Spaceport, California, USA. The flight, led by Chief Test Pilot Tristan “Geppetto” Brandenburg, focused on critical evaluations of the aircraft’s systems. This included testing the retraction and extension of the landing gear, as well as assessing a digital stability augmentation system known as a roll damper to enhance in-flight stability. Additionally, tufting, a technique used to visualize airflow, was applied to the right wing to ensure aerodynamic performance. The XB-1 took to the skies for the first time on March 22, 2024, safely achieving an altitude of 7,120 feet (2,100 meters) and speeds up to 238 knots (273 mph). The XB-1 serves as a demonstrator for Boom’s upcoming Overture airliner. The supersonic passenger jet is poised to seat between 64 and 80 passengers and fly up to 4,250 nautical miles (7,867 kilometers) at a cruising speed of Mach 1.7. The production of the

Apple pollination using Toko Ironworks' drone

Apple pollination using Toko Ironworks' drone

Toko Ironworks (Odate City, Akita Prefecture) has begun marketing apple pollination work using flying robots (drones) to fruit farmers. Apple trees are tall and bear a large number of fruit, making pollination work hard work. The drone will make the work easier and shorten the working hours. A demonstration experiment is being conducted in collaboration with Aomori Prefectural Nagui Agricultural High School, and Yoaki Torigata, director of the company, says, "We are on the verge of solving the main problem," and plans to market the system, including rental. In the demonstration experiment so far, a fruiting rate of 40-50% was obtained when the drone was used. A solution of pollen mixed with distilled water, sugar, and safflower pigment is placed in a tank, and a drone is flown near the flowers to spray them. The downwash airflow caused by the drone's propeller atomizes the solution and applies it evenly. Photo taken on August 20, 2019,credit: Nikkan Kogyo Shimbun / Kyodo News Images