Add all of the cubes
To find the volume of a stack of centimeter cubes you only need to have the dimension of one side. Once you get the dimension of one side you can find its cube to get the volume of the stack.
A 100 dollar bill has a thickness of about 0.1mm. 3 feet is equal to 914.4 mm. Therefore, there would be [914.4/0.1 =] 9144 bills in the stack. The value of the stack would then be [9144 x 100 =] $914,400.
74 square metres.
A dime is 1.35 mm (0.135 cm) thick so a 5 cm stack would contain5/0.135 = 37.04 coins (approx).A dime is 1.35 mm (0.135 cm) thick so a 5 cm stack would contain5/0.135 = 37.04 coins (approx).A dime is 1.35 mm (0.135 cm) thick so a 5 cm stack would contain5/0.135 = 37.04 coins (approx).A dime is 1.35 mm (0.135 cm) thick so a 5 cm stack would contain5/0.135 = 37.04 coins (approx).
24 cubes would be it.
It depends on how many cubes in the stack and what shape they form.
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Well, isn't that just a delightful little stack of cubes you're imagining! To build a stack that is 3 cubes long, 2 cubes high, and 4 cubes deep, you would need a total of 24 cubes. Just imagine all the happy little details you could add to each cube as you stack them up!
Add all of the cubes
To find the volume of a stack of centimeter cubes you only need to have the dimension of one side. Once you get the dimension of one side you can find its cube to get the volume of the stack.
Cubes are solid shapes that can stack neatly on top of each other, creating a stable structure.
There are 3 cubic cm in a 3 cm cube, so your answer is 3.
You stack them on each other.
Stack implementations allow us to easily implement backtracking algorithms.
3lb per sqinch
To find the surface area of a single cube, you calculate the area of each face (6 faces) and add them together. Each face has an area of 1 cm x 1 cm = 1 cm². Therefore, the surface area of one cube is 6 cm². If the stack consists of n cubes, the total surface area would be 6n cm².