Term
| What is the rule for determining the pressure in a fluid flow exiting to the atmosphere? |
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Definition
| EXIT RULE: Subsonic flow always exits at ambient (atmospheric) pressure. |
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Term
| What is the Mach number and how is it used? |
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Definition
Mach number is the ratio of the speed of a moving fluid to the speed of sound in the fluid.
- It helps determine if flow can be treated as incompressible
- low Mach # (<.3) usually represents fluid @incompressible flow
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Term
| Why is pressure typically a positive quantity? Discuss gas and liquid. |
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Definition
Pressure typically ranges from 0-infinity because we cannot have tension in a gas/fluid.
- Gas molecules are too far apart on average for the intermolecular fores to support the tensile stress and maintain cohesion
- liquid should in theory be able to support a tensile stress becase of its strong molecular forces. However, liquid boils as the pressure on liquid decreases to the vapor pressure--vapor pockets prevent liquid from being in tension
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Term
| What formula is used to estimate the power required by a pump? |
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Definition
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Term
| What is the Knudsen number and how is it used? |
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Definition
molecular mean free path = λ
some representative physical length = d
- helps determine the best method of description (continuum vs. non-continuum)
- if Kn# is close to 1: λ is close to length and we cannot use continuum method: must use Molecular Model
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Term
| What are the two types of forces in fluid mechanics? Describe. |
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Definition
Body: long range & volumetric by nature.
- Acts ON the element's mass (ie EXTERNAL)
Surface: Short range & interfacial areal by nature.
- Exerted by pressure or shear through physical contact between element and its surroundings
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Term
| What is fully developed flow? |
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Definition
- The flow is the same at every location in the pipe
- Velocity field does not change in flow direction
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Term
| What parameter measures the compressibility of a liquid? |
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Definition
Bulk Modulus measures a substance's resistance to uniform compression
Δpressure
Δvolume |
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Term
| Why do we use a stress tensor instead of the stress vector? |
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Definition
Stress Vector (Σ) can be used to calculate surface Force, but not to describe the state of stress in fluid, because it depends on orientation.
There are an infinite # of possible surface orientations for one point on the interior of a fluid.
Therefore Σ is not unique to a point in fluid.
Stress Tensor (σ) is orientation free so can uniquely describe a point in a fluid.
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Term
| How does the value of sea level atmosphere pressure relate to the total quantity of air in the earth's atmosphere? |
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Definition
Sea level atmospheric pressure represents the weight of the column of air directly above a m^2 of Earth's surface.
The total weight of air in the Earth's atmosphere would be the sea level atmospheric pressure * Surface Area of the Earth. |
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Term
| What is the internal energy of a gas? How is it related to the kinetic energy? |
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Definition
Internal E is primarily of function of T, mostly concerned with ΔU.
Kinetic E = mv^2
Higher U-->Higher T-->Higher Molecular V-->Higher KE |
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Term
| What is the contact angle and what does it tell us? Sketch |
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Definition
Helps us to find the net surface tension acing on the contact line because we don't know the surface tension between air and the surface of a solid
If Θ>90: not wetted
If Θ<90: wetted by liquid
If Θ=0: perfectly wetted |
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Term
| How do laminar and turbulent flows differ? |
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Definition
Laminar: smooth flow, paths of each particle never interfere with each other. Velocity of fluid is constant at all points
Turbulent: irregular flow that is characterized by roughness and tiny whirlpool regions |
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Term
| How does the state of stress in a fluid at rest differ from that found in a fluid in motion? |
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Definition
AT REST: Fluid has no shear stresses (only normal)
Σ=-pn + 0
IN MOTION: Fluid exerts normal (pressure) and tangential stress on a surface
Σ=σn + τ |
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Term
| What is the defining characteristic of a Newtonian fluid? Name two such fluids. |
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Definition
Fluid that obeys Newton's law of viscosity: τ=μdγ/dt
(shear stress is proportional to shear strain rate)
stress vs. strain rate = linear relationship w/ constant=μ
example: water & air |
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Term
| What is the inertial force? |
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Definition
When Newton's 2nd Law is written in its inertial form
Σforces - d/dt mv=0
the product "-d/dt mv" is called the inertial force because it has units of F.
It is in the non-accelerating inertial reference frame |
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Term
| What does the "pressure/density" term in the energy equation represent? |
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Definition
Ep=M*p/ρ=pV
P/ρ represents the per-unit-mass form of pressure-potential energy
ability of a fluid to perform mechanical work at high pressure |
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Term
| Explain the continuum hypotheis |
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Definition
underlying molecular structure of a fluid is ignored-->deliberate ommission in mathematical model
considers macroscopic properties at a point in the fluid as averages instead of individual molecules
assumes all properties are continuous flow
mean free path<<physical length
(almost always works in liquid b/c distance b/w molecules is small) |
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Term
| What is the inertial reference frame and why is the concept needed? |
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Definition
| Non-accelerating frame that makes forces evident to an observer |
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Term
| What is the essential difference between a fluid and a solid? |
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Definition
the response to shear stress which is tangential Force/Area
FLUID: Resists but cannot prevent deformation due to shear. continues to deform as long as shear is applied.
SOLID: Can prevent deformation. Quickly returns to rest and retains its new shape |
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Term
| What is the difference between an inviscid fluid and inviscid flow? |
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Definition
Inviscid Fluid: means the fluid has viscosity=0
(no fluids technically exist)
Inviscid Flow: While fluid may have viscosity, the viscous effects are negligable (ex. boundary layer) |
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Term
| What is the state of stress in a fluid at rest? |
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Definition
No shear stresses acting on a fluid at rest
states of stress is influenced by body forces
purley compressive forces and characterized by hydrostatic pressure distribution |
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Term
| What is a boundary layer? |
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Definition
effect of viscosity
layer around plate
velocity changes smoothly and continuously from 0 on the plate to free stream value.
Thickness increases down the length from the leading edge
flow changes from laminar to turbulent
close to plate: fluid does not move |
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Term
| If you know the stress tensor, how do you get the stress vector? |
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Definition
Σ=n·σ
take the dot product of the normal vector for plane and the stress tensor |
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Term
| Sketch and explain the concept of an outward normal on both closed and open surfaces |
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Definition
n denotes the orientation of a surface element
n points at the fluid or the source of the force
plays a key role in description of surface forces
CLOSED: always points away from the interieor
OPEN: points from surface toward agent responsible for force |
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Term
| Draw a pitot-static tube and describe its operation and outputs |
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Definition
Pitot-tube can give Nose Pressure (Pn) or measures velocity in a fluid
Connected to a manometer |
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Term
| How is the concept of incompressible fluid different from the concept of incompressible flow? |
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Definition
INCOMPRESSIBLE FLUIDS: density of the fluid is constant (Impossible to assume)
INCOMPRESSIBLE FLOW: density of a fluid particle doesnt change its density as it moves |
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Term
| Difference between mechanical and thermodynamic pressure? |
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Definition
Mechanical: Represented and measured as p=F/A (almost always measurable)
Thermodynamic: macroscopic model describing molecules colliding. Can only be measured in fluid is @ equilibrium |
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Term
| When would the second coefficient of viscosity or bulk viscosity be significant? |
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Definition
Signifcant when fluids with complex molecula structure undergo compression/expansion
Responsible for a viscous loss of energy when it occus rapidly
ie: interior of a shock wave: ultrasound |
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Term
| What is a buoyancy force? |
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Definition
| Net vertical force felt by an object immersed in a fluid at rest due to hydrostatic pressure |
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Term
| Explain the concept of steady flow |
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Definition
| Velocity field is independent of time |
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Term
| What is the key difference between liquid and gas? |
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Definition
Response to compressive stress
Fixed amount of liquid occupies the same volume under most conditions-->difficult to compress (large force=small dV)
Distance b/w molecules of gas is greater and variable so a small force=large dV |
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Term
| What is a barometer and what does it measure? |
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Definition
A device flled with mercury or water that is used to measure atmospheric pressure.
used by meterologist to forecast short-term changes in weather
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Term
| What is the reynolds number and how is it used? |
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Definition
Re=ρVL/mu
The ration between inertial forces and viscous forces
measures the importance of inertial forces
Tells if the flow is laminar or turbulent
high reynolds #: dominance and turbular flow
low reynolds #: are laminar flows (viscous) |
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Term
| What three thrings affect the value of the surface tension coefficient? |
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Definition
1) chemical composition of surface
2) temperature
3) charge on surface |
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Term
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Definition
compounds/acting agents that lower the surface tension of a liquid/interfacial tension
ex detergents, wetting agents, pulmonary surfactants
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Term
| What is a manometer and how does it work? |
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Definition
| liquid (water/mercury usually) filled tube that measures the pressure differene by the height difference of the liquid |
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