The stack would be over 5.8 million light years tall, more than the distance to the Andromeda galaxy and back, or about 71.5 trillion times to the Moon and back.
A "mole" of Big Macs would be 6.02214129 x 10^23 of them (Avogadro's Constant).
Using 6.0221413 x 10^23, and a height of 3.6 inches (0.09144 m), the stack of Mac would be 5.50665 x 10^19 kilometers tall. A light year is about 9.46 x 10^12 kilometers.
The distance from Earth to the sun is approximately 93 million miles. By assuming the height of a soda can is around 12 cm, you would have about 7595 cans per kilometer. Thus, a mole of 457 ml soda cans stacked on top of one another would reach from here to the sun about 404 times.
It would take approximately 1.3 trillion pennies stacked on top of each other to reach the moon, assuming the average height of a stacked penny is 0.75 inches.
The distance to the moon is approximately 238,855 miles. If you stacked pennies on top of each other, a single penny is about 0.06 inches thick. You would need roughly 477,710,000 pennies stacked on top of each other to reach the moon.
No, 200 billion pennies laid out in a single line would not reach from the earth to the moon. However, stacked on top of each other, they would far exceed the distance between the earth and the moon.
It takes roughly 3 363 105 860 iPhones to reach the moon.
11,608
The distance from Earth to the sun is approximately 93 million miles. By assuming the height of a soda can is around 12 cm, you would have about 7595 cans per kilometer. Thus, a mole of 457 ml soda cans stacked on top of one another would reach from here to the sun about 404 times.
1569 metres.
It would take approximately 1.3 trillion pennies stacked on top of each other to reach the moon, assuming the average height of a stacked penny is 0.75 inches.
A nickel has a thickness of approximately 1.95 millimeters. Since there are 25.4 millimeters in an inch, you would need about 13 nickels stacked to reach an inch (25.4 mm ÷ 1.95 mm ≈ 13).
It would take roughly 23,885 10-foot boards to reach the moon.
The distance to the moon is approximately 238,855 miles. If you stacked pennies on top of each other, a single penny is about 0.06 inches thick. You would need roughly 477,710,000 pennies stacked on top of each other to reach the moon.
No, 200 billion pennies laid out in a single line would not reach from the earth to the moon. However, stacked on top of each other, they would far exceed the distance between the earth and the moon.
Any amount of dollars, stacked on top of each other, would not circle the globe - it would simply be very tall.
put in boxes stacked on pallets and shipped to distributors. -by the way why would you want to know this you nerd
It takes roughly 3 363 105 860 iPhones to reach the moon.
It would take approximately 89.6 million tires stacked on top of each other to reach the moon, considering the average height of a tire is around 0.67 meters. This is based on the average distance between the Earth and the moon, which is about 384,400 km.