Yes
The mass of air in a room depends on how big the room is, the air pressure at the given moment, how pure the air (is it next to a coal-burning power plant?), what planet the room is on, etc.
Air does indeed take up room. Air molecules have a mass that takes up whatever room it is confined to.
The air in the room has mass and weight, but not energy. Energy is a property associated with particles or systems that can perform work or generate heat.
The mass of air in a living room can be estimated using the density of air at room temperature, which is approximately 1.2 kg/m^3. The volume of the living room is 5.8m x 3.8m x 2.8m = 60.568 m^3. Therefore, the approximate mass of air in the living room would be 60.568 m^3 x 1.2 kg/m^3 = 72.68 kg.
The mass of the 4m³ thin cardboard cube with air enclosed in it will be the mass of the air inside the cube. To calculate the mass, you would need to know the density of air (approximately 1.2 kg/m³ at room temperature and pressure). The mass of the air would be the density of air multiplied by the volume of the cube.
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.
To estimate the mass of air, you would use the formula: Mass = Volume x Density. If you have the volume of the air in cubic meters and the density of air in kg per cubic meter, you can multiply the two values to find the mass of the air.
No. density is based on molecular mass. Air is considered a gas. Gases have lower densities than liquids at 'room temperature'.
This forms a front it can be a cold or warm front
A large body of air with relatively uniform properties is called an air mass. Air masses are characterized by their temperature and moisture content, which is influenced by the region over which they form. When an air mass moves over a different area, it can bring its unique weather conditions to that region.
warm air mass and cold air mass
Yes it does as a matter of fact, if the water has a high mass there will be less air causing less oxygen whereas if the water has a low mass there will be room for more air so more oxygen hope that helped!