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 = 0.0003393
Next we just divide the volume of the room by the volume of each can: 144/0.0003393 = 424403.183
So you would need approximately 424,403 cans to fill a 144 m3 room.
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.
The fence area is 2 meters x 1 meter = 2 square meters. Converting this to square feet gives 2 sq m * 10.764 sq ft/sq m = 21.528 sq ft. Each paint can covers 2 sq ft, so you would need 21.528 sq ft / 2 sq ft/can = 10.764 cans of paint, rounded up to 11 cans.
Tin cans are resistant to water.
You can get them in trash yards where they put all the cans, plastic, and trash in.
Explain how to handle the following computer Cans: Answer text
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.
You need at least 1000,000 cubic centimeters to make 540 800 soda cans.
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 best unit for recording the volume of a soda can is typically in milliliters (mL) or cubic centimeters (cm³). These units are commonly used for measuring the volume of liquids or small objects like soda cans.
1.5 cubic yards can hold 38,779.013 US fluid ounces. So, dividing 38,779.013 by 12 results in about 3,232 12-ounce cans of Coca-Cola.
The weight of a cubic yard of trash will depend on what the trash is composed of. For example, a cubic yard of paper weighs about 568 pounds, while a cubic yard of aluminum cans weighs about 63 pounds.
The volume of a cylinder can be calculated by using the formula V = πr^2h, where V is the volume, r is the radius, and h is the height. First, we need to find the radius of each can. The diameter is given as 2.5 inches, so the radius is half of that or 1.25 inches. So, the volume of one can is: V = π(1.25 in)^2(4.9 in) ≈ 24.12 cubic inches To find the total volume of 12 cans, we can simply multiply the volume of one can by 12: Total volume = 12 cans × 24.12 cubic inches/can ≈ 289.44 cubic inches Therefore, the approximate total volume of the 12 cans is 289.44 cubic inches
In my research I have found that 160 vertically crushed cans fit in each cubic foot. This is what the typical can crusher, or stomping a standing can, accomplishes. If the horizontal can crusher on the CanPactor from DCI is used, about 106 cans fit in each cubic foot. If you stomp them very flat, or drive over them with a car, while laying down (not you but the can<g>), you get closer to the 160/CF of vertical crushing.