(6.02 × 1023) ÷ 1 trillion (1 × 1012) = 6.02 × 1011 seconds
6.02 × 1011 seconds ÷ 60 seconds ÷ 60 min ÷ 24 hours ÷ 365 days = 19,089 years
Not worth the effort.
If you counted at the rate of one number per second, it would take 320 trillion years to count to 10 billion trillion. It makes no difference WHAT you're counting.
If you counted 1 number per second, it would take 4000 trillion months (320 trillion years) to count all 10 billion trillion stars (100 billion per galaxy) in a fictitious version of our universe.
One light year is around 10 trillion km or 6 trillion miles. Nine lightyears would be 90 trillion km or 54 trillion miles. You would generally just say nine lightyears though.
No. The distance light travels in a year is called a light-year. A parsec is the distance at which a star (or other object) would have a yearly parallax of 1 arc-second, and it is equal to about 3.26 light-years.
Light travels at a speed of 300,000 kilometers per second. To convert 57 trillion kilometers to light years, we divide by the speed of light: 57 trillion km / 300,000 km/s = 190 million seconds. Converting this to years, it would take approximately 6 years to travel 57 trillion kilometers in light years.
If you counted 1 number every second without ever stopping, it would take you 507,020 years to reach 16 trillion.
If you counted at the rate of one number per second, it would take 320 trillion years to count to 10 billion trillion. It makes no difference WHAT you're counting.
If you counted 1 number per second, it would take 4000 trillion months (320 trillion years) to count all 10 billion trillion stars (100 billion per galaxy) in a fictitious version of our universe.
As of now, no individual has counted to a trillion in a single continuous effort due to the immense time and effort required. Counting to a trillion would take an estimated 31,688 years if counting one number per second without breaks. While there have been various attempts to count to large numbers, they usually involve shortcuts or are done in a more conceptual way rather than counting each number sequentially.
Terra refers to the number trillion, so a terra Hertz is one trillion cycles per second.
This would be the same as 1.3 quadrillion counts per second, except that, perhaps, the time actually was 0.01 seconds and 13 trillion events were counted. (I am assuming you mean so called short scale trillion.)
Counting from 1 to 100 trillion (100,000,000,000,000) is theoretically possible, but it would take an impractically long time. Even if you counted one number per second, it would take over 3,000 years to reach that number. In practice, such a task is not feasible.
a long time
Assuming that the second number is meant to be one trillion, the answer is: 1,001,000,000,000
If you counted 1 dwarf galaxy per second, it would take 222,000 years to count all 7 trillion dwarf galaxies in the universe.
If you counted 1 intelligent alien civilization per second, it would take 400 million years to count all 12,600 trillion intelligent alien civilizations in the universe.
A thousand trillion is 1,000,000,000,000,000 or1 quadrillion.