Everyday activities that involve a circular or repetitive motion, such as stirring a cup of coffee or spinning a Basketball on your finger, would be easier to orbit. Objects with a balanced weight distribution and minimal friction would also be easier to orbit, such as a smooth ball rolling along a flat surface.
Launching at a faster speed into orbit would result in a higher orbit or in a more elliptical orbit. This would require more fuel and energy to achieve and could potentially increase the risk of errors or damage to the spacecraft.
Jupiter's orbit would be at 19,352,000 miles (31,144,025 km).
Without the sun's gravity to hold the planets in orbit, they would no longer be bound to their current paths and would drift off into space. The absence of the sun's warmth and light would also have profound effects on the planets' atmospheres and surfaces, potentially leading to freezing temperatures and inhospitable conditions.
yes because with out its orbit it would be as slow as a snail
On Mercury, you could explore its rugged surface, study its extreme temperature variations, and observe the planet's unique orbit. However, due to its harsh conditions and lack of atmosphere, activities like human exploration or colonization would be extremely challenging.
When someone asks you to draw them or they'll shoot you. when you draw them your life will be spared.
if you are writing a story and need to see an illustration to describe it.
When someone asks you to draw them or they'll shoot you. when you draw them your life will be spared.
If we need somthing from the store we just drive there but before cars we would have to walk there and with out cars it would take a long time for people to get to where there going
An example of a orbit would be a circle
Scottish Water is a company which provides water services in Scotland. This would involve water for homes or businesses in their everyday activities as well as sewage services.
Launching at a faster speed into orbit would result in a higher orbit or in a more elliptical orbit. This would require more fuel and energy to achieve and could potentially increase the risk of errors or damage to the spacecraft.
Spacesuits are big and bulky, therefore in regular everyday conditions they would be somewhat difficult to move around in. However in a weightless environment, it would be easier as you're floating around.
The orbit would increase in size (the planet would orbit farther from the sun).
A circular orbit would have an eccentricity of 0, meaning the orbit is perfectly circular with no deviation. Eccentricity is a measure of how elongated an orbit is, ranging from 0 to 1, with 0 indicating a circle and 1 indicating a parabolic orbit.
Neptune's orbit is more like Pluto's orbit, slightly tilted.
No, a moon is a natuaral satellite and would always be in orbit around a planet. If it did'nt orbit the planet it would fall into the planet.