Space shuttles orbit the Earth in the thermosphere, which is a layer of the atmosphere located between about 80 and 600 kilometers (50 to 370 miles) above the Earth's surface. At these altitudes, the shuttle is above most of the atmospheric drag, allowing it to maintain its speed and altitude. The shuttle achieves orbit by traveling at high velocities, typically around 28,000 kilometers per hour (17,500 miles per hour), which creates a balance between gravitational pull and inertia, enabling it to stay in a continuous free-fall around the Earth. Despite the thin air in the thermosphere, the shuttle's speed ensures it remains in orbit without descending back to Earth.
The space shuttle travels in the thermosphere, which is the layer of the atmosphere located between the mesosphere and the exosphere. This is where most space shuttles orbit Earth at altitudes ranging from around 80 to 600 kilometers.
Space shuttles operate primarily in the thermosphere, a layer of Earth's atmosphere that extends from about 80 kilometers (50 miles) to 600 kilometers (370 miles) above the surface. During launch, they pass through the troposphere and stratosphere before reaching the thermosphere, where they achieve low Earth orbit. In this region, they can travel at high speeds and conduct various missions, including satellite deployment and International Space Station resupply.
Space shuttles typically operate in the thermosphere layer of the atmosphere, which extends from about 80 kilometers (50 miles) above the Earth's surface to between 550-1000 kilometers (340-620 miles) high. At these altitudes, the air is extremely thin, allowing the shuttles to operate efficiently in the near-vacuum conditions of space.
Space shuttles typically orbited in the lower part of the thermosphere, at altitudes ranging from about 200 to 600 kilometers (approximately 124 to 373 miles) above Earth's surface. This region is characterized by increasing temperatures and decreasing atmospheric density. The specific orbital altitude allowed the shuttles to conduct various missions, including satellite deployment and scientific research.
No. That only applies to low Earth orbit. Geostationary satellites orbit beyond it.
not regulary. they mostly orbit the mesosphere
The atmosphere is divided in to five layers. These are Troposhere, Stratosphere, Mesosphere, Thermosphere and Exosphere. The space shuttles orbit in thermosphere.The atmosphere is divided in to five layers. These are Troposhere, Stratospere, Mesosphere, Thermosphere and Exosphere. The space shuttles orbit in thermosphere.
The space shuttle travels in the thermosphere, which is the layer of the atmosphere located between the mesosphere and the exosphere. This is where most space shuttles orbit Earth at altitudes ranging from around 80 to 600 kilometers.
They don't. The shuttles were designed for Earth Orbit only.
Columbia was a Space Shuttle. Space Shuttles travel to an orbit around the Earth and return.
Thermosphere
Space shuttles operate primarily in the thermosphere, a layer of Earth's atmosphere that extends from about 80 kilometers (50 miles) to 600 kilometers (370 miles) above the surface. During launch, they pass through the troposphere and stratosphere before reaching the thermosphere, where they achieve low Earth orbit. In this region, they can travel at high speeds and conduct various missions, including satellite deployment and International Space Station resupply.
Space shuttles typically operate in the thermosphere layer of the atmosphere, which extends from about 80 kilometers (50 miles) above the Earth's surface to between 550-1000 kilometers (340-620 miles) high. At these altitudes, the air is extremely thin, allowing the shuttles to operate efficiently in the near-vacuum conditions of space.
Space shuttles typically orbited in the lower part of the thermosphere, at altitudes ranging from about 200 to 600 kilometers (approximately 124 to 373 miles) above Earth's surface. This region is characterized by increasing temperatures and decreasing atmospheric density. The specific orbital altitude allowed the shuttles to conduct various missions, including satellite deployment and scientific research.
They are put into orbit by shuttles and stay in orbit around the earth, like the moon. Since they are no longer affected by Earth's gravitational field, they will not naturally fall down to Earth.
No. That only applies to low Earth orbit. Geostationary satellites orbit beyond it.
Yes, the thermosphere plays a significant role in impacting Earth. It is the layer of the Earth's atmosphere where many satellites orbit, and it absorbs harmful radiation from the sun, protecting us on the surface. Changes in the thermosphere can also impact radio signals and communication systems on Earth.