Formation Rate of Planetary Systems in the Universe

In summary, it is possible to make an estimate of how often planetary systems form by making assumptions about how often stars are born and how long they last.
  • #1
oldspice1212
149
2
Hey guys so I'm kind of stuck on the second part of this question, here it is.

It’s possible to make a rough estimate of how often planetary systems form by making some basic assumptions. For example, if you assume that the stars we see have been born at random times over the last 10 billion years, then the rate of star formation is simply the number of stars we see divided by 10 billion years. The fraction of stars with detected extrasolar planets is at least 5%, so this factor can be multiplied into find the approximate rate of formation of planetary systems.


1. Using these assumptions, how often does a planetary system form in our galaxy? (Our galaxy contains at least 100 billion stars.)

answer was 2 year/planetary systems

2. How often does a planetary system form somewhere in the observable universe, which contains at least 100 billion galaxies?

(In seconds between planetary systems being born)

Need help with this second part, thanks!
 
Last edited:
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  • #2
oldspice1212 said:
Hey guys so I'm kind of stuck on the second part of this question, here it is.

It’s possible to make a rough estimate of how often planetary systems form by making some basic assumptions. For example, if you assume that the stars we see have been born at random times over the last 10 billion years, then the rate of star formation is simply the number of stars we see divided by 10 billion years. The fraction of stars with detected extrasolar planets is at least 5 , so this factor can be multiplied into find the approximate rate of formation of planetary systems.


1. Using these assumptions, how often does a planetary system form in our galaxy? (Our galaxy contains at least 100 billion stars.)

answer was 2 year/planetary systems

2. How often does a planetary system form somewhere in the observable universe, which contains at least 100 billion galaxies?

(In seconds between planetary systems being born)

Need help with this second part, thanks!
Many stars have lifetimes much much less than 10 billion years. For some the lifetime is just a few million years.

Others have lifetimes well in excess of 10 billion years. As much as six to twelve trillion years.
 
  • #3
Well how did you do the first part?
Why can't you use the same method for the second part?
 
  • #4
I keep getting some ridiculous number >.<
 
  • #5
oldspice1212 said:
I keep getting some ridiculous number >.<
It might be astonishing but not ridiculous. What do you get?
 
  • #6
oldspice1212 said:
I keep getting some ridiculous number >.<
haruspex said:
It might be astonishing but not ridiculous. What do you get?
I agree - but also show your working/reasoning.
 

1. What factors contribute to the formation rate of planetary systems in the universe?

The formation rate of planetary systems in the universe is influenced by a variety of factors, including the abundance of raw materials, the presence of a nearby star, and the stability of the planetary system's orbit. Additionally, the age and composition of the parent star can also play a role in the formation rate.

2. How do scientists study the formation rate of planetary systems?

Scientists use a variety of methods to study the formation rate of planetary systems, including observations of young stars and their surrounding protoplanetary disks, computer simulations, and analysis of exoplanet data. These methods allow scientists to better understand the processes involved in the formation of planetary systems and make predictions about their frequency in the universe.

3. Is the formation rate of planetary systems in the universe constant?

The formation rate of planetary systems in the universe is not constant and can vary depending on the conditions in a particular region of the universe. For example, the rate may be higher in regions with a high concentration of gas and dust, while it may be lower in regions with fewer raw materials available for planet formation.

4. What role does the age of a star play in the formation rate of planetary systems?

The age of a star can play a significant role in the formation rate of planetary systems. Younger stars are more likely to have a higher rate of planet formation, as they still have a large amount of material surrounding them that can be used to form planets. However, as a star ages and its protoplanetary disk dissipates, the rate of planet formation may decrease.

5. How does the formation rate of planetary systems impact the search for extraterrestrial life?

The formation rate of planetary systems is a crucial factor in the search for extraterrestrial life. Planets are necessary for the development and sustainability of life, so a higher formation rate of planetary systems in the universe may increase the chances of finding other habitable worlds. Additionally, studying the formation rate can also help scientists identify the most promising regions to search for potential life beyond Earth.

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