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Explain the difference in the earths climate change when the earths orbit changes from elliptical to circular?

Earth's eccentricity Eccentricity is defined as the difference in shape between an ellipse and a perfect circle. In a similar fashion to Earth's obliquity, the more uniform Earth's orbit is (more like a perfect circle), the less difference there is in climate change throughout the year.


The ellipse with less eccentric is smaller or larger than an ellipse with more eccentric?

Eccentricity does not refer to the [size] of the ellipse. It refers to the [shape].An ellipse with [zero] eccentricity is a [circle].As the eccentricity increases, the ellipse becomes less circular,and more 'squashed', like an egg or a football.


Which planet has an orbital eccentricity most like the orbital eccentricity of the earth?

The Earths orbit is fairly un-eccentric when compared to the other planets, with only Neptune and Venus having more regular (less eccentric) orbits. The eccentricity of earths orbit is 0.0167, the closest to this is Neptune's, with a value of 0.00859


How does the shape change with increasing eccentricity?

As the eccentricity of a shape increases, the shape becomes more elongated or stretched out. For example, an ellipse with a higher eccentricity will look more like a stretched circle. In general, as eccentricity increases, the shape will deviate more from its original form and become more elongated.


What is mercury's orbit of the sun?

its orbit is not perfect circle, but is most eccentric of all planets,having eccentricity of 0.21 eccentricity means,the amount by which its orbit varies from perfect circle. 0 means circle and 1 means parabola. so mercury's eccentricity(0.21) is between circle and parabola, in fact, more closer to circle


Is an ellipse is similar to a circle?

How is a circle similar to an ellipse?The eccentricity of a circle is zero.The eccentricity of an ellipse which is not a circle is greater than 0, but less than 1.The eccentricity of a parabola is 1The eccentricity of a hyperbola is greater than 1Definition of eccentrica person with an unusual or odd personalitybizarre: conspicuously or grossly unconventional or unusual;.A circle is the perfect shape, all point are equidistant from the center. I believe we could agree that the circle has no eccentricity!!The eccentricity of a circle is zero..On the other hand the ellipse has points that 2 centers, a little eccentric. The farther the 2 points are apart the more eccentric the ellipse is.If you take any point on the ellipse, the sum of the distances to the focus points is constant. The eccentricity of an ellipse which is not a circle is greater than 0, but less than 1.If you stretch the ellipse too far it will break open and be a parabola. The eccentricity of a Parabolais 1. The parabola just keeps spreading out in both directions. At least it is still symmetrical. It has bottom (vertex),but the top just keeps spreading out.The eccentricity of a parabola is 1The eccentricity of a hyperbola is greater than 1The points on a hyperbola get close to the x-axis and y-axis, but never touch either axis.The eccentricity of a circle is zero. Think about the equation of each of these shapes Circle x^2 + y^2 = r ^2 How beautiful y^2 = r ^2 - x^2The eccentricity of an ellipse which is not a circle is greater than 0, but less than 1.Ellipse Equation(x^2 ÷ a^2) + (y^2 ÷ b^2) = 1Getting more eccentric with those a^2's an b^2'sParabola EquationY = k * x^2Now poor y is not squared The eccentricity of a parabola is 1Hyperbola Equationx * y = constanty = constant ÷ xNow poor x is in the denominator The eccentricity of a hyperbola is greater than 1


What are the planets has the most elliptical and tilted orbit?

None of the planets orbit the sun perfectly in a circle, there is a degree of deviation from this perfect circle called eccentricity. The higher the eccentricity (more more the eccentric the orbit is) the further away from this perfect circle the orbit is. The planet that deviates most from a perfect circle, having the highest eccentricity, is Neptune. Neptune also has the highest axial tilt, tilted over onto its side as it orbits the sun.


What does the eccentricity of an ellipse tell you about the ellipse?

The eccentricity of an ellipse, denoted as ( e ), quantifies its deviation from being circular. It ranges from 0 to 1, where an eccentricity of 0 indicates a perfect circle and values closer to 1 signify a more elongated shape. Essentially, the higher the eccentricity, the more stretched out the ellipse becomes. Thus, eccentricity provides insight into the shape and focus of the ellipse.


What is the minimum eccentricity an elipse can have?

the minimum would be a zero. and a eccentricity of zero would be a circle because if it's a zero, you only have one point because there is no focal distance. if you have only one point to connect, it would be a circle. on the other hand, the maximum would be one; a line. because eccentricity is in a fraction/decimal form. the person before me wrote 7. that is not humanly possible, because that would mean a fraction like 700/100. and how can the focal distance be grater than the major axis?


What happens to the shape of an eclipse when its eccentricity increases?

When the eccentricity of an eclipse increases, its shape becomes more elongated or elliptical. This means that the eclipse will appear less circular and more stretched out. The degree of elongation will depend on how much the eccentricity increases.


How does the eccentricity of an ellipse relates to its shape?

The eccentricity of an ellipse, denoted as ( e ), is a measure of how much the ellipse deviates from being circular. It ranges from 0 (a perfect circle) to values approaching 1 (which represents a highly elongated shape). A lower eccentricity indicates a shape closer to a circle, while a higher eccentricity reflects a more elongated or stretched appearance. Thus, the eccentricity directly influences the overall shape and visual characteristics of the ellipse.


The eccentricity of a planet's orbit describes?

The eccentricity of a planet's orbit describes how elliptical (or non-circular) the orbit is. It is a measure of how much the orbit deviates from a perfect circle. A value of 0 represents a perfect circle, while values closer to 1 indicate a more elongated orbit.