A billion pennies stacked on top of each other would be 963.13 miles high
Two printers stacked together makes 80,02.2311 quarters. So 3 disk is of course 60 dollars.
Superimosed
Any amount of dollars, stacked on top of each other, would not circle the globe - it would simply be very tall.
That depends on what bills you are using.
A billion pennies stacked on top of each other would be 963.13 miles high
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.
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.
310m
Two printers stacked together makes 80,02.2311 quarters. So 3 disk is of course 60 dollars.
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.
A thousand pennies, which equates to $10, would weigh about 2.5 pounds since each penny weighs approximately 2.5 grams.
If they are stacked up, each penny on its rim: 1.8cm * 75 pennies = 135 cm ≈ 53.15 inch ≈ 4.43 ft. Answer: 135 cm
Superimosed
Any amount of dollars, stacked on top of each other, would not circle the globe - it would simply be very tall.
In a normal bar graph, each bar represents one value. In a stacked bar graph, each bar has a number of values, stacked on top of each other. So a bar can show how a total is broken down. So each bar could represent a year, with the amounts for each month indicated by different parts of that one bar.
Solids can be stacked in heaps because they have a fixed shape and can support the weight of other objects without changing their form. Liquids and gases do not have a fixed shape and would flow and disperse if stacked on top of each other.