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Ideal Fluids
- In compressible
- It has zero viscosity
- No resistance is encountered as the fluid moves
Real Fluids
- Compressible
- Viscous in nature
- Certain amount of resistance is always offered by these fluids as they move
A real fluid is one that has viscosity and experiences friction when flowing, while an ideal fluid is one that is assumed to have no viscosity and experiences no friction. Real fluids follow the laws of fluid dynamics with viscosity playing a role, while ideal fluids are used in theoretical calculations to simplify analysis.
IDEAL FLUIDS
Ideal fluids are those fluids in which no tangent forces exist,absolutely frictionless and no shear stress
no ideal fluid exist in reality
REAL FLUIDS
In real fluids stresses occur whenever the fluid is motion
Ideal fluid is a fluid having no viscosity, and incompressable. Ideal fluid do not actually axist,but some time it is useful to consider what what would happened to an ideal fluid in a particular fluid flow problem in order to somplify the problem.
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is uniform flow is ideal fluid?
Uniform flow is a characteristic of ideal fluid behavior, where the fluid moves in a steady and consistent manner without any disturbances or variations in flow velocity or pressure. Ideal fluid assumes that the flow is frictionless, incompressible, and irrotational, which allows for the simplification of fluid dynamics equations. However, in reality, ideal fluids do not exist, and all real fluids exhibit some level of viscosity and other non-ideal behaviors.
What is an imaginary gas that conforms perfectly to the kinetic molecular theory callled?
An imaginary gas that conforms perfectly to the kinetic molecular theory is called an ideal gas. Ideal gases have particles with no volume and no intermolecular forces between them, allowing them to perfectly follow the assumptions of the kinetic molecular theory.
Why can an ideal gas not be liquefied?
An ideal gas cannot be liquefied because it is an imaginary gas that obeys the ideal gas law perfectly at all temperatures and pressures. This means that ideal gases do not experience intermolecular forces of attraction that are needed to condense into a liquid state.
What is the Difference between ideal and practical low pass filter?
An ideal low pass filter allows all frequencies below a certain cutoff frequency to pass through unchanged while attenuating frequencies above it. In practice, however, real low pass filters have limitations such as finite gain, phase shifts, and roll-off characteristics that deviate from the ideal behavior due to components like resistors, capacitors, and inductors having non-ideal characteristics. Thus, practical low pass filters may not achieve the same performance as ideal filters but are designed to approximate their behavior as closely as possible within the constraints of real-world components.
How might real pulley systems be different from ideal pulley?
Real pulley systems may have friction between the pulley and the rope, causing energy loss and reducing efficiency. Additionally, the pulleys themselves may have mass and size, which could affect the mechanical advantage of the system. In ideal pulley systems, we assume no friction and massless, frictionless pulleys for simplicity in calculations.
What was the difference between the Confucian ideal of society and the real of japan?
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
What was the difference between the Confucian ideal of society and the real society japan?
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
What was the difference between the Confucian ideal society and the real society of japan?
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
What was the difference between the confucian ideal of society and the real society of japan?
The Confucian ideal of society is depend on agriculture, not commerce and the real society of Japan is very structure.
What is the similarity of ideal fluid and real fluid?
There is, of course, s similarity between the set-ion of a boundary layer and a ... the proeess itself. Thus these rotational motions of an ideal fluidpossess a reel significance ... presents a reel difficulty and indeed no real simplification has been
What is the difference between a ideal machine and real machine?
In ideal machine input is equal to output . The efficiency of ideal machine is 100% . In real machine input is not equal to output .The efficiency of ideal machine in not 100% . In ideal machine there is no lose of energy . In real machine there is lose of energy . In real machine there is no friction . While in real machine there is friction .
Which of the following properties minimize the difference between an ideal gas and real gas?
low temperature, Strong intermolecular forces
What is the difference between real and ideal culture?
Ideal culture will always differ from real culture; values and norms do not describe actual behavior, as much as, they describe how much we are supposed to behave. Real culture: what actually happens in everyday life; Ideal culture: how we are supposed to behave based on cultural norms and values.
Differences between real and ideal culture?
Ideal culture is how people wish society would be, versus real culture, which is the reality of what culture actually is. An example of this would be the cultural ideal of magazines and society uplifting women and explaining that all body types are normal and beautiful. This can be contrasted with the real culture of body shaming and lifting very thin bodies up as the ideal beauty, to the exclusion of all other body types.
is uniform flow is ideal fluid?
Uniform flow is a characteristic of ideal fluid behavior, where the fluid moves in a steady and consistent manner without any disturbances or variations in flow velocity or pressure. Ideal fluid assumes that the flow is frictionless, incompressible, and irrotational, which allows for the simplification of fluid dynamics equations. However, in reality, ideal fluids do not exist, and all real fluids exhibit some level of viscosity and other non-ideal behaviors.
What is the difference between real solutions and real roots when dealing with discriminant?
There is no difference between real solutions and real roots.
Drain transmission fluid cold or hot?
No real difference
