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∙ 12y agoA teardrop loop helps equally distribute the forces around the loop, as you end up slowing down as you crest, so it will get tighter as it goes up. In a circular loop, there is A: Ejector airtime at the top and B: Increased, and possible dangerous, G-Forces at the bottom of the loop.
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∙ 12y agoA circle is an ellipse, so it's elliptical either way.However, the orbit of Mars is not a perfect circle.
No the planet's orbits are not VERY elliptical but yes, they are somewhat elliptical. They are not just rotating in a circle. More like an oval.
Mercury has the most elliptical orbit among the planets in our solar system. Its orbit is significantly elongated, with the eccentricity of 0.2056, which means that it deviates the most from a perfect circle compared to other planets.
Planets circle in an elliptical orbit around the Sun.
No, Jupiter's orbit is not a perfect circle but rather an ellipse. This means its distance from the Sun varies over time. However, Jupiter's orbit is very close to being circular compared to some other planets in our solar system.
Variable, as an ellipse is not a perfect circle.
An elliptical base is a base that is shaped like a flattened circle. This is most common on objects that are cone shaped.
About the same shape as an egg, or oblong. Not a perfect circle.
Nothing is perfect.
An elliptical orbit is a type of curved path that an object follows around another object in space. It is defined by being an oval shape, with two foci at the center. Planets and other celestial bodies often move in elliptical orbits around stars.
No, because all planets known have elliptical orbits.
it looks like a circle seen slightly on edge