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The average stack of 5 pennies is 7 mm tall.
If you look at the formulas for volume of a cone and volume of a cylinder you can see that a cone will fit in exactly three times if the height and radius of the cone and cylinder are equivalent. A cone has the equation: (1/3)*pi*(r^2)*h=Volume. And a cylinder has the equation: pi*(r^2)*h=Volume. With h equaling height and r equaling radius, you can see that 3*(Volume of a cone)=Volume of a cylinder. Therefore, the cone would fit in three times if height and radius are equivalent for the two figures.
A US penny is 1.55mm thick. Thus a stack of 1,000,000 pennies would be 1,550,000mm, or 1.55 kilometers (0.963 miles) high. A Canadian penny is 1.45mm thick. Thus a stack of 1,000,000 pennies would be 1,450,000mm, or 1.55 kilometers (0.901 miles) high. A post-1992 British penny is 1.65mm thick. Thus a stack of 1,000,000 pennies would be 1,650,000mm, or 1.65 kilometers (1.025 miles) high.
A penny has a thickness of 1.55 mm, so 5 cm = 50 mm. (50 mm)/(1.55 mm) = 32.26, so 32 pennies will be slightly less than 5 cm (4.96 cm)
the volume of the cylinder is height*pi*radius^2, in this case 27*3.14*30^2, equaling 76,341 cubic inches. Since 1 cubic inch = .004329 gallons, the answer is ~330 gallons
1ft
35 mm
42
The average stack of 5 pennies is 7 mm tall.
A million times the height of a single penny. In other words, measure the height of a single penny, and multiply that by a million. You might also measure a stack of 10 pennies, to get a more accurate measurement.
A cylinder with a radius of 2 inches and a height of 6 inches has a surface area equaling 100.53 square inches.
400 feet
Many countries use pennies as their currency but these are of different sizes. So the answer depends on which country you are talking about.
His height is 6 ft 3 quarters of an inch. His weight is one million pounds.
Two quarters put together! Two quarters put together! Two quarters put together!
Pennies are coins not mountain ranges. However if you meant the "Pennines" then the highest peak is Cross Fell in eastern Cumbria, at 2,930 feet (893 m).
If you look at the formulas for volume of a cone and volume of a cylinder you can see that a cone will fit in exactly three times if the height and radius of the cone and cylinder are equivalent. A cone has the equation: (1/3)*pi*(r^2)*h=Volume. And a cylinder has the equation: pi*(r^2)*h=Volume. With h equaling height and r equaling radius, you can see that 3*(Volume of a cone)=Volume of a cylinder. Therefore, the cone would fit in three times if height and radius are equivalent for the two figures.