Determining Sun-Earth Distance: Parallax vs. Kepler's Law

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In summary, the distance between the Earth and Sun is currently determined using a method called parallax, where the distance between Earth and Mars is measured during opposition. Another method involves calculating the mass of the Earth using the period of the Moon and its distance from Earth, and then using the angular velocity of Earth around the Sun. Radar is also used to determine the distance today, with transits of Mercury and Venus being used as references. The radar pulse takes about 5 minutes to return from Venus at its closest approach.
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How is the sun Earth distance currently determined?

I read about a method where the distance between the Earth and Mars is determined when they are in opposition using parallax.
Knowing the orbit period of both Mars and the earth, Kepler’s third law is then used to determine the Earth sun distance.

Is this method seen as the best or is a different method used?
 
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I do not know if that's the best, but I think there another way.
First we can calculate the mass of the Earth via the period of the Moon and its distance from the Earth. Then identify the angular velocity of the Earth around the Sun by directing to the faraway galaxies or stars at exactly one moment at night, say at 0:00
 
  • #4
Thanks D H for the reference to the Quest for the AU article. The history was very interesting and it answered my question which is that Radar is the technique used today.
Its only about 5 mins for the radar pulse to return from venus at closest approach.
 

1. What is the difference between parallax and Kepler's law when determining the distance between the Sun and Earth?

Parallax is a method of determining distance by measuring the angle of an object from different points of observation, while Kepler's law uses mathematical calculations based on the orbit of a planet around the sun.

2. Which method is more accurate in determining the Sun-Earth distance?

Kepler's law is considered more accurate because it takes into account the elliptical shape of the Earth's orbit around the Sun, whereas parallax assumes a perfectly circular orbit.

3. How does parallax work in determining the Sun-Earth distance?

Parallax relies on the fact that objects closer to the observer appear to shift in position when viewed from different angles. By measuring the angle of this shift, the distance to the object can be calculated using trigonometry.

4. What are the limitations of using Kepler's law to determine the Sun-Earth distance?

Kepler's law assumes a perfectly circular orbit, when in reality the Earth's orbit is slightly elliptical. This can lead to small errors in the calculated distance.

5. How do scientists use both parallax and Kepler's law together to determine the Sun-Earth distance?

By combining the results from both methods, scientists can get a more accurate estimate of the Sun-Earth distance. Parallax can be used as a starting point, and then Kepler's law can be used to refine the calculation based on the elliptical shape of the Earth's orbit.

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