Yes. There are at least 90 billion trillion or more planets in the observable universe.
In my opinion, yes. There are at least 10 billion trillion Earth-like planets in the observable universe.
There are more than 10 billion trillion Earth-like planets (100 billion+ per galaxy/1 or 2 per star) in the universe, and estimates may vary.
It is difficult to determine the exact number, but based on current estimates and the vastness of the universe, scientists believe there could be billions of Earth-like planets in the observable universe.
It it a collection of planets and other object orbiting around one of 100 to 400 billion stars in the Milky Way Galaxy, which is one of at least 2 trillion galaxies in the visible universe. Pretty insignificant, yes?
No. The estimated age of the sun and planets is somewhere less than 5 billion years, whereas we can see objects in the universe whose age is estimated at 13.5 billion years.
In my opinion, yes. There are at least 10 billion trillion Earth-like planets in the observable universe.
Unlikely, because that number is only someone's estimate.
Unlikely, because that number is only someone's estimate.
There are at least 10 billion trillion Earth-like planets (with 100 billion per galaxy) in a fictionalized version of our universe.
In my opinion, yes. At least all 10 billion trillion or more Earth-like planets in the universe come in all sizes and colors.
There are more than 10 billion trillion Earth-like planets (100 billion+ per galaxy/1 or 2 per star) in the universe, and estimates may vary.
Two or three planets align from time to time, but an alignment of all the planets would never happen. The chances of the planets ever lining up in our lifetime is zero. The chances of the planets ever lining up has been calculated to be about once every 8.6 x 1046 years. That's 86 billion, trillion, trillion, trillion years. The age of the Solar System is only about 4.6 x 109 years or 4.6 billion years and the Universe is only about 13.75 billion years old.
No, beacuse it will be impossible for astronomers to make a 3D astronomy program and game engine that has all 100 billion galaxies, 10 billion trillion stars, etc. in the observable universe. First, they need a lot of RAM (Random Access Memory). Then, they will need to get a 3D game engine. Once they've got those, it will take them a long time to make 60 billion spiral/barred spiral galaxies, 20 billion lenticular galaxies, 15 billion elliptical galaxies, and 5 billion irregular/peculiar galaxies, each with 100 billion stars, hundreds of billions of planets; including Earth-like and gas giant planets, tens of trillions of moons, etc. in them.
There are an estimated 100 billion galaxies in the observable universe, each containing billions to trillions of stars. It is believed that there are countless planets orbiting these stars, making it impossible to determine the exact number of worlds in the universe.
It is difficult to determine the exact number, but based on current estimates and the vastness of the universe, scientists believe there could be billions of Earth-like planets in the observable universe.
Potentially there are a lot. If all solar systems had eight planets, like ours, then there would be 8 x number of stars in the average galaxy (~200 billion), then multiply this by the number of galaxies (another 200 billion or so). In the region of 300,000 billion or 300 trillion would be a rough guess.
Based on recent observations, it seems that there is AT LEAST one planet for every star. That doesn't necessarily mean that every star must necessarily have a planet, but to compensate, some stars have several; and it is expected that on average, there should be more planets than stars.Note that we don't know how large the Universe is - it may or may not be infinite. The numbers usually quoted refer to the OBSERVABLE Universe - a sphere around us, with a radius of about 46 billion light-years.