We need the average length of a wiener, let's use 6 inches because it is 1/2 foot and that might make this calculation easier. Now let's use the distance to the moon as 240,000 miles, and at 5,280 feet per mile that is 1,267,200,000 feet So since we need two Hot Dogs to make a foot, we have 2x1,267,200,000 hot dogs or wieners to reach the moon about 2,534,400,000 wieners!
It depends on the thickness of the tyres!!!
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.
approximately $9 Billion if edge to edge. Significantly more if stacked.
It takes roughly 3 363 105 860 iPhones to reach the moon.
it depends on how fast the rocket is
It would take roughly 23,885 10-foot boards to reach the moon.
It would depend on what size moon pie it is. From earth to the moon is 238,000 miles.
It depends on the thickness of the tyres!!!
2,513,280 one way 5,026,560 round trip
as many as you want
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.
{| |- | 3,844,030,000,000.00 |}
100 trillion
Many astronauts have not reached the moon.
About 3.2 billion cans. A 12-oz aluminum can may be designated as 12 cm tall -- the design of the cans allows them to "nest" which reduces the effective height when they are stacked. The average distance to the Moon is 384,400 kilometers. Dividing 384 million meters by 0.12 meter per can yields a figure of 3,203,333,333 cans.
approximately $9 Billion if edge to edge. Significantly more if stacked.
It takes roughly 3 363 105 860 iPhones to reach the moon.