Oh, isn't that a lovely thought! Let's imagine those drink cans all snug and cozy in a cubic meter. Now, if we gently place each can side by side and on top of each other, we might just be able to fit all 1,000 in there. Remember, there's always room for creativity and possibility in our happy little world.
The first step is to covert cubic centimeters (cm3) to cubic meters (m3) so we are working with the same units. Since there are 1,000,000 cm3 per m3: 339.3/1,000,000 = 0.0003393Next we just divide the volume of the room by the volume of each can: 144/0.0003393 = 424403.183So you would need approximately 424,403 cans to fill a 144 m3 room.
1/c when c equals the volume of each can in cubic meters.
You could fit 1000 drinks in one cubic metre with ease.
Mass of a substance can be determined by its density and volume. The equation for mass (M) is density (D) divided by volume (V) or conversely D = MV. In this example the volume is 1 cubic meter (1m^3). Paper density is dependent on its type. Once density is known the weight of one cubic meter can be determined.
no. Canadians consume about seven million cans of energy drinks every month.
an element used to make soft-drink cans is aluminum
an element used to make soft-drink cans is aluminum
The cubic volume of a case of canned beer can vary depending on the size and quantity of the cans in the case. A standard case of 24 cans of 12-ounce beer cans would have a cubic volume of approximately 1.33 cubic feet.
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The metal aluminum is the primary element used to make soft drink cans.
A cubic yard is equivalent to 27 cubic feet. Since a one-gallon can holds approximately 0.133 cubic feet, you can fit about 202 one-gallon cans in a cubic yard box (27 cubic feet divided by 0.133 cubic feet per gallon). However, this is a theoretical maximum; practical considerations like the shape of the cans and how they are arranged may reduce that number.
The metal aluminum is the primary element used to make soft drink cans.