Assuming you meant that each dimension is in meters, we can use the prism formula for rectangular bases: s1s2s3.
Plugging in each value, 12*14*8 = 1344 m3.
The volume of an object. Probably an object the size of a room or larger.
To calculate the volume of a classroom in liters, multiply the length, width, and height of the room in meters to get the volume in cubic meters. Then, multiply the volume in cubic meters by 1000 to convert it to liters, as 1 cubic meter is equal to 1000 liters.
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.
Measure the length of the room. We'll call this length "L" Measure the width of the room. We'll call this width "W" Measure the height of the room. We'll call this height "H" Volume = L * W * H
There are no square units in any cubic units. Square units describe an area, whereas cubic units describe a volume. If units of volume could be converted to units of area, then you'd be able to tell us how many acres of gas your car burned last month.
The room that I am in, at the moment, around 36 m3
cubic meters
Cubic meters.
The size of a room is typically measured in square meters (m²), not cubic meters (m³). A room with a volume of 60 cubic meters (m³) could have different dimensions depending on its shape. For example, a room that is 6 meters long, 5 meters wide, and 2.5 meters high would have a volume of 60 cubic meters. To determine the size in square meters, you would need to calculate the floor area by multiplying the length and width of the room.
Divide the amount of bacteria in the room by the amount of bacteria per cubic meter to discover how many cubic meters the room is: 120,000/4,000 =30 cubic meters Then you set the rest up as an algebraic equation: Volume=LxWxH V= 3 x 4 xH 30=12 x H Divide both sides by 12 in order to isolate Height 2.5=H This means that the height of the room is 2.5 meters.
This would be measured in cubic meters.
volume is measured as a cube, for example cubic feet or cubic meters
Some rooms have more, some have less.Here's how to calculate the volume of your own room:-- Measure the length of the room in meters.-- Measure the width of the room in meters.-- Measure the height of the room in meters.-- Calculate the product of all three numbers.-- Multiply the product by 1,000.-- The last number is the room's volume in liters.
The volume of an object. Probably an object the size of a room or larger.
To calculate the volume of a room, you multiply its length, width, and height. In this case, the room is 3 meters wide, 4 meters long, and 2.5 meters high. Therefore, the volume of the room is 3 * 4 * 2.5 = 30 cubic meters.
To calculate the volume of a classroom in liters, multiply the length, width, and height of the room in meters to get the volume in cubic meters. Then, multiply the volume in cubic meters by 1000 to convert it to liters, as 1 cubic meter is equal to 1000 liters.
Find out how many cubic feet the room is and how many cubic feet the soccerball is and divide