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a million of inches
It would take 10 trillion pennies to make 10 billion dollars. This is a large amount of pennies. It would be enough to fill an entire 2,500 square foot house from top to bottom.
1 if it's big enough
1,000,000 British pennies would be 66666.6666666032 feet, 1,000,000 American pennies would be 62499.9999999405 feet, 1,000,000 Australian pennies would be 101049.868766308 feet, and 1,000,000 Canadian pennies would be 62499.9999999405 feet (the same as the American 'penny').
For US money-21500 pennies would equal $215. There are 100 pennies to a dollar.
a million of inches
If the solid earth were made into a flat plain, the seawater would cover the entire earth to a depth of 2440 meters. http://eesc.columbia.edu/courses/ees/climate/lectures/o_strat.html
It would take 10 trillion pennies to make 10 billion dollars. This is a large amount of pennies. It would be enough to fill an entire 2,500 square foot house from top to bottom.
Assuming you did not add the pennies, but merely doubled the amount, on the 365th day, you would have 2364 pennies = about 3.76 x 10107 dollars, which is an implausibly large sum of money. The gross domestic product of the entire Earth is only about 80 to 90 x 1012 dollars. 10107 is trillions of times the total number of electrons in the universe. If you kept each group of pennies as you doubled, you would have (2365 - 1) pennies, or almost exactly twice as much money.
1 if it's big enough
Yes, beneat the surface it is always dark.On the other hand, if we go above the surface, near the Earth it would also be dark, but if some astronaut goes several hundred thousand kilometers from Earth, he would eventually reach a point where - from the point of view of the astronaut - the Earth is not able to cover the entire Sun, and where it is unlikely that Earth happens to be right in front of the Sun, where it covers the sunlight even partially.Yes, beneat the surface it is always dark.On the other hand, if we go above the surface, near the Earth it would also be dark, but if some astronaut goes several hundred thousand kilometers from Earth, he would eventually reach a point where - from the point of view of the astronaut - the Earth is not able to cover the entire Sun, and where it is unlikely that Earth happens to be right in front of the Sun, where it covers the sunlight even partially.Yes, beneat the surface it is always dark.On the other hand, if we go above the surface, near the Earth it would also be dark, but if some astronaut goes several hundred thousand kilometers from Earth, he would eventually reach a point where - from the point of view of the astronaut - the Earth is not able to cover the entire Sun, and where it is unlikely that Earth happens to be right in front of the Sun, where it covers the sunlight even partially.Yes, beneat the surface it is always dark.On the other hand, if we go above the surface, near the Earth it would also be dark, but if some astronaut goes several hundred thousand kilometers from Earth, he would eventually reach a point where - from the point of view of the astronaut - the Earth is not able to cover the entire Sun, and where it is unlikely that Earth happens to be right in front of the Sun, where it covers the sunlight even partially.
The use to it is when the world is falling apart or a HUGE valcano blows and it is gonna cover the whole entire earth!
No. Lunar eclipses affect the entire night half of the Earth, and happen every year or so. Solar eclipses cover only a tiny swath of the Earth's surface, but given enough time, every point on Earth would be affected.
No. Stacked up, they would only reach about 200,000 kilometers. (128,000 mi) The average distance of the moon is 384,403 km. If the pennies were placed end to end, they would make it.
100000000000000000
The earth is falling. It takes the earth an entire year to fall once around the sun.
Pangaea is actually from two Greek roots, pan- meaning "entire" and ge- meaning "earth" (from Gaia, "Earth"). Thus, it makes sense that a supercontinent would mean "entire earth."