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There are estimated to be around 100 billion galaxies in the observable universe, with each galaxy containing hundreds of billions of stars. This means that the total number of stars in the observable universe is in the order of 10^24 (1 septillion) stars.
The ratio of Italian hoagies sold to the total number of hoagies sold is X:Y, where X represents the number of Italian hoagies sold and Y represents the total number of hoagies sold.
The total number of possible outcomes is the product of the number of values for each event.
The formula for calculating the percentage of germination is: Number of germinated seeds / Total number of seeds planted x 100. This formula allows you to determine the percentage of seeds that have successfully germinated out of the total number of seeds planted.
To display the total number of records in an opened table, you can use the SQL query: SELECT COUNT(*) FROM [table_name]. This query will return the total number of records present in the specified table.
A running total of the number of people surveyed is called a cumulative total. It represents the sum of all the individual responses or data points collected up to that point in the survey.
In the observable UNiverse there are somewhere in the order of 1011 galaxies, a typical galaxy might have 1011 stars, and it seems likely that most stars have planets and would therefore qualify as "solar systems". That makes for a total of roughly 1022 stars or solar systems (that is a one, followed by 22 zeroes), just in the observable Universe. Note that the total Universe is probably much larger, but it isn't currently know how much larger. All of the above are rough estimates, of course.
If the information is correct, [See related question] then there are more stars in the Universe.There is an estimated 100 billion galaxies in the observable (note observable) Universe, and say 100 billion stars per galaxy.This gives a total of about 10,000,000,000,000,000,000,000 stars or 1 x 1022 or 10 Sextillion.
Our own galaxy has between 100 and 400 billion stars; there are hundreds of billions of similar galaxies in the OBSERVABLE Universe, and it is believed that the entire Universe is much, much bigger than the observable Universe (how much bigger, is not known). It seems that at least a large percentage of those stars have planets, which means they can be called "solar systems".
Total number of stars is uncountable. Sir James Jeans is of the view that as grains of sand are innumberable as are the stars.
Theoretically, enough of the formula behind it could be stored so that pieces of it could be calculated. For example, if you just wanted to look at the last ten digits or something like that. However, the entire number is far to big to be stored in perfect precision by any computer that has ever existed or ever will exist. How can I say "ever will exist"? Because, even written in scientific notation, i.e. with only one digit of precision, the number of digits in the exponent would exceed the number of atoms in the observable universe. The total number is easily larger than the number of Planck volumes into which the observable universe can be divided. If the whole observable universe were a computer, and every tiny quark and neutrino represented a bit of data, it could not store the entire number in absolute precision. And better observational equipment would not help expand the observable universe into a larger computer, since, at this level, the observable universe is bound not so much by our technology, but rather by the speed of light itself. So, the short answer to your question is "No."
Infinite and Unknown. But I think the point is "night sky" meaning, OUR night sky, or our visual field here on Earth. It's not a question of how many stars are in the universe. The answer depends on your location and the brightness of ambient terrestrial lights but can be as many as 13,000.
In the VISIBLE UNIVERSE, there are somewhere in the order of 1011 galaxies; each galaxy on average has 1011 stars, for a total of (very roughly) 1022 stars.
Something called "dark energy" which provides almost 70% of the total energy in the observable universe and is causing the expansion of the universe to accelerate (instead of decelerate as expected in the basic big bang model of the universe).
The Wikipedia lists an estimate of 10 to the power 80 hydrogen atoms for the observable Universe. The total number of particles would be somewhere in that order, depending on what "particles" you are thinking of.
In the total Universe and with near perfect viewing conditions you can see about 0.0000000000000000005% of all stars.
A very large number. One and one half times ten to the twenty third power is the current estimate of the number of stars in the universe! There are 500 billion stars in our Milky Way galaxy and there are 300 billion galaxies in the universe by the current estimate. If all of the other galaxies are the size of the Milky Way galaxy then the total number of stars is 1.5 times ten to the twenty third power!
There are an estimated 100 to 200 billion galaxies.Scientists estimate that our Galaxy (The Milky Way) contains 200 to 400 billion stars.So taking a conservative number of 100 billion stars per galaxy, gives an approximate total of 10,000,000,000,000,000,000,000 stars. (which is 10 sextillion)It is unknown. The Milky Way galaxy contains an estimated 200 billion stars and there are an estimated 100 billion galaxies in the observable universe. However, our galaxy is significantly larger than most. That said, if we assume the average galaxy has 10 billion stars then we arrive at an estimate of 1,000 billion billion stars, or about 1 sextillion stars.