Its moving. Quickly. It is in orbit around the earth, the same as any satellite.
The space station does NOT fly. IT is in space and there is no are for it to fly in. The space station is in Earth Orbit moving at 7.66 kilometres per second.
The force of gravity keeps the space station in orbit as well as inertia that keeps the space station moving in a straight line.
The International Space Station can be sighted when it flies over the region you are in. The website in related links below will tell you when the international space station can be observed in your region. It looks like a moving star, when you walk its like something out of the blue is above you.
You can see the space station at night because it reflects sunlight. When the sun shines on the space station, it illuminates its solar panels and other reflective surfaces, making it visible as a bright point moving across the night sky.
To find out when the space station will pass over Chicago, you can use websites like spotthestation.nasa.gov to get the specific times. The sightings usually last for a few minutes and you can see the space station moving across the sky.
The word "stationary" is not a noun. It is an adjective that means not moving or still.
You don't. Space is moving.
The space between moving and stationary objects is known as the interface or boundary. It is where interactions and exchanges can occur between the two entities. This space plays a crucial role in defining the relationship and dynamics between the moving and stationary objects.
The space station does NOT fly. IT is in space and there is no are for it to fly in. The space station is in Earth Orbit moving at 7.66 kilometres per second.
Even though the space station is traveling at a speed of 17,500 miles per hour, all objects inside or attached to the space station are traveling in the same speed and direction. Relative to these objects, the space station will appear like it isn't moving at all. When an astronaut goes on an extra-vehicular activity (EVA) outside the space station, he will still be moving in the same speed and direction as the space station. Because of this, the space station will appear to be stationary to the astronaut (Unless the astronaut pushed against it, in which case the astronaut would drift away). In the event that an astronaut does accidentally push himself away from the space station, tethers and handrails allow the astronaut to pull himself back to safety.
The force of gravity keeps the space station in orbit as well as inertia that keeps the space station moving in a straight line.
Objects that are "stationary" on Earth's surface are moving faster nearer the equator. The eastward motion of the rotating Earth is greatest at the equator (about 1037 mph or 1670 kph).
The antonym of stationary is mobile.
Objects that are "stationary" on Earth's surface are moving faster nearer the equator. The eastward motion of the rotating Earth is greatest at the equator (about 1037 mph or 1670 kph).
Objects that are "stationary" on Earth's surface are moving faster nearer the equator. The eastward motion of the rotating Earth is greatest at the equator (about 1037 mph or 1670 kph).
An object that is stationary relative to Earth's surface is moving fastest relative to space at the Equator. This is because the Earth's rotation speed is greatest at the Equator, providing the highest linear velocity for an object on the Earth's surface.
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