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What are the factors affecting mean free path?
Density: As gas density increases, the molecules become closer to each other. Therefore, they are more likely to run into each other, so the mean free path decreases.Increasing the number of molecules or decreasing the volume will cause density to increase. This will decrease the mean free path.Radius of molecule: Increasing the radius of the molecules will decrease the space between them, causing them to run into each other more. Therefore, mean free path decrease.Pressure, Temperature, and other factors that affect density can indirectly affect mean free path.
What are state functions in thermodynamics and how do they differ from path functions?
State functions in thermodynamics are properties that depend only on the current state of a system, such as temperature, pressure, and internal energy. They do not depend on the path taken to reach that state. Path functions, on the other hand, depend on the specific path taken to reach a particular state, such as work and heat.
What is the definition of a state function and how does it differ from other types of functions in thermodynamics?
A state function in thermodynamics is a property that depends only on the current state of a system, such as temperature, pressure, or volume. It does not depend on the path taken to reach that state. This is different from path functions, which depend on the specific process or path taken to reach a particular state.
What is a state function and how does it differ from other types of functions in thermodynamics?
A state function in thermodynamics is a property that depends only on the current state of a system, such as temperature, pressure, or volume. It does not depend on the path taken to reach that state. This differs from other types of functions in thermodynamics, such as path functions, which depend on the specific process or path taken to reach a particular state.
Does the work done on an object by a conservative force depend on the path taken by the object?
No, the work done on an object by a conservative force does not depend on the path taken by the object.
Mean free path of water molecule?
The mean free path of a water molecule is the average distance it can travel between collisions with other molecules. In the case of water at room temperature and pressure, the mean free path is typically on the order of micrometers to millimeters. This can vary depending on the specific conditions of temperature and pressure.
What are the factors affecting mean free path?
Density: As gas density increases, the molecules become closer to each other. Therefore, they are more likely to run into each other, so the mean free path decreases.Increasing the number of molecules or decreasing the volume will cause density to increase. This will decrease the mean free path.Radius of molecule: Increasing the radius of the molecules will decrease the space between them, causing them to run into each other more. Therefore, mean free path decrease.Pressure, Temperature, and other factors that affect density can indirectly affect mean free path.
What is mean free path?
path is path it is very free of coast because it is hope this answer will effect you
What is the measure of the average kinetic energy of molecules in the air?
mean free path and RMS velocity .............................................................GHo$t
What are state functions in thermodynamics and how do they differ from path functions?
State functions in thermodynamics are properties that depend only on the current state of a system, such as temperature, pressure, and internal energy. They do not depend on the path taken to reach that state. Path functions, on the other hand, depend on the specific path taken to reach a particular state, such as work and heat.
What is the measure of how packed molecules are?
mean free path
Are heat and work path functions?
No, heat and work are not path functions. Heat and work are energy interactions between a system and its surroundings that depend on the process taken, not just the initial and final states. Path functions are properties whose values depend on the path followed to reach that state, such as change in temperature.
At a constant pressure how does a volume of gas vary with respect to the absolute temperature?
It doesn't. The equation for mean free path is: mfp = 1 / [sqrt(2)*n*pi*d^2] In the above equation, n is the number of molecules per unit volume, and d is what is known as the collision diameter (the distance between the centers of the two colliding molecules). Thus, there are only three variables which affect mean free path: number of molecules, volume, and collision diameter. Volume can be changed by a change in temperature, but this question assumes constant volume (meaning pressure will change as temperature changes). As long as the amount of gas is unchanged, the mean free path will be unaffected by changes in temperature. This is a wrong answer. The collision diameter decreases with the increase of temperature.
What happens to the mean free path of the molecules in this process if a helium filled balloon initially at room temperature is placed in a freezer will its volume increase decrease or remain the same?
The volume decrease.
What is the definition of a state function and how does it differ from other types of functions in thermodynamics?
A state function in thermodynamics is a property that depends only on the current state of a system, such as temperature, pressure, or volume. It does not depend on the path taken to reach that state. This is different from path functions, which depend on the specific process or path taken to reach a particular state.
How does mean free path depend on pressure of a gas?
I believe the shorter the mean free path, the higher the density. Basically, the closer the molecules are, the more dens it is. That is why when you add pressure, the density goes up ... by this equation. d = PM/RT P=pressure M=molar mass R=gas constant T=absolute temperature Basically, the more pressure put on a gas, the closer it goes to being a liquid... which is denser. The bigger the gas (molar mass) the smaller the mean free path, the denser it is. However, I do not know how to relate mean free path mathematically to density yet.
What are some examples of state functions and how do they differ from other types of functions in thermodynamics?
State functions in thermodynamics include temperature, pressure, volume, internal energy, enthalpy, entropy, and Gibbs free energy. These functions are properties of a system that depend only on the current state of the system, not on how the system reached that state. This is in contrast to path functions, such as work and heat, which depend on the specific path taken to reach a particular state.
