No; infinite also doesn't exist (probable with the exception of the Universe).
There are pressurised gases in the canister. The heat causes the canister to explode.
There are ideal gases..
Ideal gases can be explained by the Kinetic Molecular Theory: 1) no attraction between gas particles 2) volume of individual gas particles are essentially zero 3) occupy all space available 4) random motion 5) the average kinetic energy is directly proportional to Kelvin Real gases has volume and attraction exists between gas particles. No gas behaves entirely ideal. Real gases act most ideal when temperature is is high and at low pressure.
Polar gases are generally less ideal than nonpolar gases due to stronger intermolecular forces, such as dipole-dipole interactions and hydrogen bonding, which can lead to deviations from ideal gas behavior. Nonpolar gases, on the other hand, primarily experience weaker London dispersion forces, allowing them to behave more closely to the ideal gas law under a wider range of conditions. Therefore, in terms of ideal behavior, nonpolar gases are typically more ideal than polar gases.
Noble gases are infinitely soluble in other noble gases because they are non-reactive and have very weak intermolecular forces. This allows the noble gas atoms to mix together easily and uniformly, creating a homogeneous solution without any chemical reactions occurring.
Pressurised gases will eventually liquify.
Fartting is not ideal
There are pressurised gases in the canister. The heat causes the canister to explode.
Ideal gases can be condensed, but the ideal gas model may fail for gases at higher temperatures.
There are ideal gases..
Gases deviate from ideal behavior at high pressures and low temperatures.
Ideal gases can be explained by the Kinetic Molecular Theory: 1) no attraction between gas particles 2) volume of individual gas particles are essentially zero 3) occupy all space available 4) random motion 5) the average kinetic energy is directly proportional to Kelvin Real gases has volume and attraction exists between gas particles. No gas behaves entirely ideal. Real gases act most ideal when temperature is is high and at low pressure.
its an air pump driven by expanding exhaust gases used to charge cylinder with pressurised air / fuel
Describe the property that makes gases ideal for filling jumping castles
Monatomic ideal gases consist of single atoms, while diatomic ideal gases consist of molecules with two atoms bonded together. Diatomic gases have higher heat capacities and are more complex in terms of their behavior compared to monatomic gases.
Two gases on the periodic table that behave like ideal gases are helium (He) and neon (Ne). Ideal gases follow the ideal gas law, which assumes that the gas particles are point masses and do not interact with each other. Helium and neon have low atomic masses and weak intermolecular forces, making their behavior close to ideal in most conditions.
Polar gases are generally less ideal than nonpolar gases due to stronger intermolecular forces, such as dipole-dipole interactions and hydrogen bonding, which can lead to deviations from ideal gas behavior. Nonpolar gases, on the other hand, primarily experience weaker London dispersion forces, allowing them to behave more closely to the ideal gas law under a wider range of conditions. Therefore, in terms of ideal behavior, nonpolar gases are typically more ideal than polar gases.