Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.
Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.
Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.
Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.
It is called an ellipse.
The shape of the Earth's orbit around the Sun is called an "ellipse." This elliptical shape means that the distance between the Earth and the Sun varies throughout the year. The concept of an elliptical orbit is described by Kepler's First Law of Planetary Motion.
An ellipse.
Sun. The elliptical shape of Earth's orbit is why it's sometimes closer and sometimes farther from the Sun, causing variations in seasons and temperatures. This motion is governed by gravity, keeping Earth in its orbit around the Sun.
All orbits are elliptical. Some, like Earth's are ALMOST circles, but every orbit has at least a little bit of eccentricity.
The Earth revolves around the sun in an elliptical (egg-shaped) orbit.
The shape of the moon's orbit around the Earth is an ellipse.
The shape of earth's orbit is known as an elipse
Eliptical
It is called an ellipse.
It's an elliptical orbit. it is also an mutha
An ellipse.
The shape of the earth's orbit is elliptical, not circular.
The shape of every orbit is an ellipse.
An elliptical orbit is an elongated enclosed circle around the Earth. It is a path that gives the orbit its shape due to the gravitational pull between the Earth and the object. The orbit's shape varies depending on the object's velocity and distance from the Earth.
The shape of the Earth's orbit around the Sun is called an "ellipse." This elliptical shape means that the distance between the Earth and the Sun varies throughout the year. The concept of an elliptical orbit is described by Kepler's First Law of Planetary Motion.
Oval