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The particles are free
What else can I help you with?
How are the particles in this model differ from real gas particles?
The particles are free
How do the particles in a real gas deviate from ideal gas behavior?
The particles in a real gas deviate from ideal gas behavior due to interactions between the particles. In an ideal gas, the particles are assumed to have no volume and no interactions with each other. In a real gas, the particles have volume and can interact through forces such as van der Waals forces. These interactions can cause the gas to deviate from ideal behavior, especially at high pressures and low temperatures.
Can the volume of the particles in a real gas can be ignored?
No, that's why you call it real gas. For an ideal gas the size of the particle, that means the volume of interaction is zero, for real gases not. An effect of real gases is the cool down (or heat up) of an gas which is expanded (compressed). Another effect is that you can get liquids.
Is real gas a gas?
A real gas is a type of gas that is different than an ideal gas. They have completely different interactions between their molecules.
Does a real gas have volume?
Yes, a real gas has volume because its particles occupy physical space. Unlike an ideal gas, which is assumed to have no volume and incompressible point particles, real gases have finite molecular sizes and experience intermolecular interactions that result in volume occupancy.
How do you make a working model to demonstrate movements of particles in solid liquid and gas?
To create a working model demonstrating movements of particles in solid, liquid, and gas, you can use different sized balls for particles to represent the three states of matter. For a solid, pack the balls tightly together and show minimal movement. For a liquid, spread the balls out slightly and allow them to slide past each other. For a gas, scatter the balls far apart and show random movement in all directions. By visually comparing the movements of these particle models, you can effectively demonstrate the behavior of particles in different states of matter.
Why do we need particle model to explain states of matter?
The particle model helps us understand the behavior of matter by representing it as individual particles (atoms or molecules). This model explains how particles move and interact with each other in different states of matter (solid, liquid, gas) based on their energy and arrangement. It provides a fundamental understanding of the structure and properties of different materials.
How are liquid particles gas particles and ice particles the same?
They are all made of matter; just in different states.
What is the difference between the spectra of different gas tubes?
They have different packaged particles.
How is a solid different from a liquid or gas?
the distance between the particles and the average kinetic movement of the particles.
How are the particles in a solid liquids and a gas different?
The particles in a gas move faster and are full of energy. However the particles in a solid do not have as much energy and vibrate in place -Baarkullah Awan
Why does gas move freely?
Because the particles are further apart (look up the particle model) :)
