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.
To determine the mass of Iron, its density is required. The formula used is Volume x Density = Mass. Assuming the Iron is pure and in solid state with a density of approximately 7.87g/cm3 at room temperature, its mass is around 51.2g.
Oxygen and nitrogen have equal average kinetic energy per molecule at room temperature. This is assuming that both oxygen and nitrogen molecules are in fact at room temperature.
In Chemistry, 1 mole of ANY gas at room temperature and pressure is 24dm^3 (or 24000 cm^3).
The Kinetic Molecular Theory states that all matter is made up of tiny particles that are constantly in motion. An example of that would be febreeze: when you spray some, the moving particles in the air carries around the room, making the room smell like febreez. Hope that helped :)
lead
Zero. I am currently sitting in my chair in my room. If the plane is my chair and my room is the reference plane as long as I don't move my chair around the room it has no kinetic energy. Now if I expand my reference plane to an observer on the sun (I know) they are going to see me and my chair hauling butt at about 30km/s around the solar system along with my room my house and the rest of the planet this velocity and my mass mean there is kinetic energy. Ek=.5mv^2
To determine the mass of Iron, its density is required. The formula used is Volume x Density = Mass. Assuming the Iron is pure and in solid state with a density of approximately 7.87g/cm3 at room temperature, its mass is around 51.2g.
If the air is moving, then it has kinetic energy. If the fan is running, then the blade has kinetic energy. Maybe that's where the moving air got its kinetic energy from. If the dog is also walking through the room, then the dog has kinetic energy too, but he probably didn't get his kinetic energy from the fan or the air. On the other hand, a piece of tissue floating through the room could very well have gotten its kinetic energy from the fan, but that kinetic energy had to be carried from the fan to the tissue by the moving air.
To determine the mass of Iron, its density is required. The formula used is Volume x Density = Mass. Assuming the Iron is pure and in solid state with a density of approximately 7.87g/cm3 at room temperature, its mass is around 51.2g.
Temperature is truly the measure of kinetic energy, in the case of a room, of the atmosphere. This kinetic energy of the liquid in a solution with the energy necessary to dissolve a tablet.
formula for arr- total room revenue ARR= ------------------------------ total occupied room
If mixed together, molecules with various masses will move at different speeds related to their mass.
Water, as is it a liquid.
Yes
CaO ; 1 atom of Calcium (Ca) 1 atom of oxygen (O)
Oxygen and nitrogen have equal average kinetic energy per molecule at room temperature. This is assuming that both oxygen and nitrogen molecules are in fact at room temperature.
In Chemistry, 1 mole of ANY gas at room temperature and pressure is 24dm^3 (or 24000 cm^3).