How does inflation fit into the position of the Earth?

In summary: The expansion of the universe since the big bang has allowed us to see objects beyond 14 billion light-years. The universe appears isotropic in its distribution of matter and there is no "center" of the big bang. The Hubble flow explains the movement of distant galaxies, which were formed after the big bang. In summary, the conversation discusses the observable universe and the objects we can see at its edge, which are from shortly after the big bang. There is no center of the big bang and the universe appears isotropic. The expansion of the universe has allowed us to see objects beyond 14 billion light-years, and the Hubble flow explains the movement of distant galaxies.
  • #1
tampora
7
0
You can get a calculator and start counting the errors and false assumptions contained below if you want.. but I got to ask..

If the furthest we can see is 14 billion light-years away (because it's been 14 billion years since the big bang and that's all the time light has had to travel such a distance), then the objects we see at the edge of our observable universe were from shortly after the big bang.

Question 1: If Earth were at the center of the universe, then we should be able to observe objects at 14 billion light-years in all directions. If Earth wasn't in the center, shouldn't we see objects 14 billion light-years in the direction of the center, while only seeing a smaller amount of objects in the opposite direction? Would that allow us to calculate our position relative to the big bang?

Question 2: When considering an object 14 billion light-years away in some direction, and an object 14 billion light-years away in the opposite direction... shouldn't both objects have been in the nearly the same position 14 billion years ago, near the time of the big bang? How is it we can look at two objects when they were starting to diverge from one another from 2 different perspectives at the same time?
 
Astronomy news on Phys.org
  • #2
We can actually see further than 14 billion light-years, as a result of the universe's expansion since the big bang. The so-called particle horizon, the edge of the observable universe, is about 46 billion light-years away.

1: We have taken counts of galaxies all over the sky, and the density is roughly the same in all directions. Our observable universe appears essentially isotropic in its large-scale distribution of matter. We cannot say what is outside our observable universe, but it may or may not be isotropic. There is no "center" of the big bang. The big bang happened "everywhere" at once. The best analogy is raisin bread rising in the oven -- every raisin moves away from every other raisin, and every raisin sees the same view.

2: All distant galaxies are moving away from us, and the more distant galaxies are moving faster. This is called the Hubble flow, and it is what led to the formulation of the big bang theory. The galaxies were not formed immediately after the big bang -- the formation took quite a long time, at least half a billion years. By the time they formed, they were far enough away from our own galaxy to been as independent, compact objects.

- Warren
 

1. How does inflation affect the Earth's position in the solar system?

Inflation does not directly affect the Earth's position in the solar system. Inflation refers to the rapid expansion of the universe in the early stages after the Big Bang, while the Earth's position in the solar system is determined by the gravitational forces between the Sun and other planets.

2. Can inflation cause changes in the Earth's orbit?

Inflation does not cause changes in the Earth's orbit. The Earth's orbit is primarily affected by the gravitational pull of the Sun and other planets, not by inflation. Inflation occurs at a much larger scale and does not have a significant impact on the Earth's orbit.

3. How does inflation affect the Earth's climate?

Inflation does not directly affect the Earth's climate. However, inflation has been linked to the formation of galaxies and the distribution of matter in the universe, which can indirectly influence the Earth's climate over long periods of time.

4. Is the Earth's position affected by the expansion of the universe during inflation?

No, the Earth's position is not affected by the expansion of the universe during inflation. The Earth, along with other objects in the universe, is held together by gravity and does not participate in the rapid expansion of the universe during inflation.

5. Can inflation cause changes in the Earth's rotation?

Inflation does not cause changes in the Earth's rotation. The Earth's rotation is affected by the gravitational pull of the Sun and the Moon, as well as other forces such as atmospheric drag. These factors have a much greater impact on the Earth's rotation than inflation.

Similar threads

B How did Earth get so far away from other galaxies?
    • Astronomy and Astrophysics
Replies
12
Views
1K
I Universe is older than we think
    • Astronomy and Astrophysics
Replies
3
Views
685
B Distance of Stars / Size of the Universe calculation
    • Astronomy and Astrophysics
Replies
6
Views
2K
Stargazing Hubble Spots Farthest Star Ever Seen
    • Astronomy and Astrophysics
Replies
9
Views
1K
B How does the observable Universe have meaning?
    • Astronomy and Astrophysics
Replies
25
Views
2K
B The Hubble deep field photos and the edge of the universe
    • Astronomy and Astrophysics
Replies
17
Views
2K
B What is the significance of the record-breaking Gamma-Ray Burst GRB221009A?
    • Astronomy and Astrophysics
Replies
12
Views
2K
I A question about a popular example of expansion
    • Astronomy and Astrophysics
Replies
7
Views
2K
B Earth's Hubble velocity and measuring Hubble at large distances
    • Astronomy and Astrophysics
Replies
5
Views
961
B A Hypothesis To Observe The Formation Of Earth
    • Astronomy and Astrophysics
Replies
12
Views
1K

Hot Threads

Recent Insights

Back
Top