gas has no specific volume because the molecules can be compressed or expanded, which would change the volume. like there is a smaller volume of gas in a can of soda then in the atmesphere around you.
A gas. Gas will expand to fill the available space.
The volume of gas at a depth of 100 feet would depend on the pressure and temperature at that depth. As pressure increases with depth, gas volume decreases. To calculate the exact volume, you would need to know the specific pressure and temperature conditions at that depth.
The specific heat at constant volume for a diatomic gas is typically 5R/2. The specific heat ratio, or gamma (γ), is defined as the ratio of the specific heat at constant pressure to the specific heat at constant volume. Therefore, for a diatomic gas with (C_v = \frac{5R}{2}), the gamma will be (\gamma = \frac{C_p}{C_v} = \frac{7R/2}{5R/2} = \frac{7}{5}) or 1.4.
The volume of a solid is fixed and maintains a specific shape. The volume of a liquid is determined by its container but it takes the shape of the container. The volume of a gas is not fixed and expands to fill the available space.
Yes, gas can take the shape of its container because gas particles are in constant motion and are not bounded by a specific volume or shape like liquids or solids. They will expand to fill whatever volume is available to them.
The specific volume of the gas can be calculated by dividing the volume by the weight. In this case, specific volume = 100 cubic feet / 5 pounds = 20 cubic feet per pound.
The gas constant is a number. It is measured in terms of energy per temperature increase per mole. It has no specific volume.
To find the molecular mass if specific volume is given, you can use the ideal gas law. The ideal gas law relates the pressure, volume, temperature, and the number of moles of gas to the gas constant. By rearranging the ideal gas law equation and solving for the molecular mass, you can determine the molecular mass of the gas.
The relationship between pressure and specific volume in a gas system changes inversely under varying conditions. This means that as pressure increases, specific volume decreases, and vice versa. This relationship is described by Boyle's Law, which states that at constant temperature, the pressure and volume of a gas are inversely proportional.
A gas. Gas will expand to fill the available space.
The volume of hydrogen gas compares to the volume of oxygen gas based on their stoichiometric ratio in chemical reactions, particularly in the formation of water. In the reaction 2H₂ + O₂ → 2H₂O, two volumes of hydrogen gas react with one volume of oxygen gas. This means that for every two volumes of hydrogen, there is one volume of oxygen. Therefore, the volume of hydrogen gas is twice that of oxygen gas in this specific reaction.
The volume of a gas is dependent on pressure and temperature.
Density Specific Volume Pressure Temperature Viscoisy Gas Constant Heat Specific
The gas phase of matter has no definite volume and fills the entire space available to it. Gas particles move freely and are not confined by a specific shape or volume.
The initial volume of laughing gas depends on the specific context or experiment being referred to. In a typical scenario, the initial volume of laughing gas could be determined by the amount of gas initially present in the container before any changes occur.
The volume density of the gas can be calculated by dividing its mass by its volume. However, more information is needed about the gas's molecular weight to calculate specific gravity, which is the ratio of the density of the gas to the density of air at a specific temperature and pressure.
No, possessing volume is not a property of gas. A gas neither have definite volume not shape. The reason behind this is that " gasses molecules are apart from each other, therefore free space left between the molecules which allows them to move randomly .... Hence gasses haven't definite volume..