1/c when c equals the volume of each can in cubic meters.
You could fit 1000 drinks in one cubic metre with ease.
A cm (centimeter) is a hundredth of a meter, so 100 cm fit in a meter.
15625 golf balls will fit in 1 cubic meter. Volume of a golf ball is approximately 40 cubic cm. Since 1 cubic meter has 1,000,000 cubic cm, the number of golf balls purely on voume calculation would be 25,000. However, there would be a lot of empty space between golf balls and hence significant volume will be used by empty space. The diameter of a golf ball is 4 cms. Based on that you should be able to fit 25 balls across length, width and height making the total number of golf balls to be 25 X 25 X 25 = 15,625.
50,000
A meter stick is 100cm, therefore 20 pencils would fit on a meter stick.
You could fit 1000 drinks in one cubic metre with ease.
200
it depends on how big the books are.
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.
There are 1,000 liters of water that can fit in 1 cubic meter. For water, 1 milliliter is equivalent to 1 cubic centimeter.
A 2400 cubic meter tank will hold up to 2.4 million liters.
Suitcases come in various sizes therefor it would depend on their sizes.
That depends entirely on the thickness of each tile !
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.
There are 1,000 liters of water that can fit in 1 cubic meter. For water, 1 milliliter is equivalent to 1 cubic centimeter.
It depends on the volume of the items. If each is 1 cm3, you could fit 1003 or 1 000 000 of them.
depends on the size of the person, probably 2 0r 3 average people