Not enough information. A room normally has the shape of a rectangular block; if that is the case, you can calculate its volume by multiplying length x width x height.
It depends on the pressure you wish to achieve.
There is no such unit as "cubic square feet". If you want to calculate the cubic feet of volume in a room, multiply the room's length (in feet) by its width (in feet), and then multiply that result by the room's height (in feet).
In order to calculate the cubic feet (volume) of a room it is necessary to have its length, width AND height. Only two measures are given.
It is not possible to calculate the area given only the volume.
N=60*fresh air/volume(room)
Air changes in a spinning department can be calculated as follows Air Changes= Room air volume in cmh/ Room volume in m3
The volume of air in a classroom would depend on the room's dimensions. To calculate the volume, you would multiply the length by the width by the height of the room. This calculation would give you the total volume of air in the empty classroom.
The volume of air with a mass of 100g would depend on the density of the air. The density of air at room temperature and pressure is approximately 1.2 kg/m^3. Using the formula density = mass/volume, you can calculate that the volume of 100g of air would be approximately 0.083 m^3.
Fresh air requirement for a room can be calculated using the formula: Fresh air (CFM) = volume of the room (cubic feet) × air changes per hour. Determine the volume of the room by multiplying the length, width, and height measurements. The recommended air changes per hour vary depending on the room function and occupancy, typically ranging from 4-8 for most spaces.
Volume of room in square feet * 0.0015
The volume of a room is length times width times height. So it goes with a reverberation chamber.
About 20% of the volume of the air in the room is oxygen.
To calculate the volume of air you have to find know how big the area of air for example the area is 45 and the height is 20. all you have to do is times both numbers, 45 times 20 equals 900. So that is the volume.
Here's the formula: In plain English, we're changing CFM into Cubic Feet per Hour (CFH). Then we calculate the volume of the room by multiplying the room height times the width times the length. Then we simply divide the CFH by the volume of the room. Here's how a full formula works: Now, compare the air changes in the room to the required air changes for the type of room it is on the Air Changes per Hour Download accompanying this article. If it's a lunch or break room that requires seven to eight air changes per hour, you're right on target. If it's a bar that needs 15-20 air changes per hour, it's time to reconsider. Let's look at this engineering formula differently. When airflow is unknown and you need to calculate the required CFM for a room, first you look at the Air Changes per Hour Chart and identify the required air changes needed for the use of the room. Let's say it's a conference room requiring 10 air changes per hour. Next calculate the volume of the room (L x W x H). Then divide by the required air changes per hour to get required CFM. if you have any doubt pl mail me at selvapdm@gmail.com
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.
Volume of the room.