First off, the Earth orbits the sun. Second off, no. The time it takes the Earth to orbit the sun is a year. A day is the time it takes the Earth to rotate on its axis.
About 350 kilometres (220 mi) above the surface of the Earth.
The agena is a type of rocket stage used in space missions to deliver payloads into orbit. The distance between the agena and Earth can vary depending on the specific mission and stage of the launch, but generally speaking, the agena operates within Earth's orbit, which is approximately 150-400 kilometers above the Earth's surface.
Space satellites are typically located in different orbits around Earth, depending on their purpose. Some satellites are in low Earth orbit (LEO) at altitudes around 400-1,200 km, while others are in medium Earth orbit (MEO) or geostationary orbit (GEO) at altitudes of around 20,000 km and 36,000 km, respectively. Additionally, there are satellites in higher orbits for specific functions, such as those used for deep space exploration.
The moon orbits the Earth 3 1/2 times a day.
Because Mars' average distance from the sun is about 1.5 times the earth's average distance from the sun. We've known for about 400 years now that the period of an orbit is completely determined by the size and shape of the orbit. The size or mass of the orbiting body have no effect on the period. So ... farther from the sun, longer time to complete each orbit. It's as simple as that. Here's the math: For every planet in our solar system, the quantity (time for one orbit)2 / (1/2 of the largest dimension across the orbit)3 is the same number.
The calendar year is 365.2425 days, which comes from there being 97 leap years in a cycle of 400 years.
It takes the Earth about 365.2422 days to orbit the sun exactly once. Because of this, we have three years which are 365 days long and every fourth year is 366 days long (leap year). Because the Earth takes 365.2422 days to orbit the sun instead of exactly 365.25 days, we only have a leap year on a century year which is divisible by 4 and by 400 (such as 2000). Century years which are divisible by 4 but not by 400 are not leap years (1900 wasn't and 2100 will not be).
It takes the Earth about 365.2422 days to orbit the sun exactly once. Because of this, we have three years which are 365 days long and every fourth year is 366 days long (leap year). Because the Earth takes 365.2422 days to orbit the sun instead of exactly 365.25 days, we only have a leap year on a century year which is divisible by 4 and by 400 (such as 2000). Century years which are divisible by 4 but not by 400 are not leap years (1900 wasn't and 2100 will not be).
More information on Space Shuttlehttp://www.onestopsolver.com/space-shuttle-orbit-flight-path.html
The ISS orbits at an altitude of 400 km (250 miles) above Earth.
400 days 400 nights
Depending on the variety it can take anywhere from 90-110 days give or take.
Revolve
The orbit of the International Space Station (ISS) is approximately 250 miles (400 kilometers) above Earth's surface.
About 93,000,000 miles. It is in "low earth orbit" which means it is around 400 miles +/- a few, above the earth.
The space shuttle used to orbit Earth at an altitude of around 300-400 kilometers (186-248 miles). This allowed it to stay within the Earth's atmosphere to perform tasks like deploying satellites or conducting experiments in microgravity.
About 350 kilometres (220 mi) above the surface of the Earth.