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A volume-based hydrodynamic approach to sound wave propagation in a monatomic gas
S. Kokou Dadzie
*
, Jason M. Reese
*
Corresponding author for this work
School of Engineering
Research output
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Article
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peer-review
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Dive into the research topics of 'A volume-based hydrodynamic approach to sound wave propagation in a monatomic gas'. Together they form a unique fingerprint.
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Mathematics
Wave Propagation
89%
Hydrodynamics
84%
Sound
78%
Gas
77%
Knudsen number
59%
Hydrodynamic Model
56%
Experiment
31%
Hydrodynamic Equations
28%
Spatial Distribution
26%
Continuum Model
26%
Prediction Model
26%
Kinetic Model
25%
Standing Wave
25%
Plane Wave
22%
Damping
19%
Kinetics
19%
Range of data
12%
Term
11%
Physics & Astronomy
monatomic gases
100%
sound waves
82%
wave propagation
70%
hydrodynamics
62%
Knudsen flow
51%
hydrodynamic equations
25%
kinetics
24%
standing waves
21%
elastic waves
20%
spatial distribution
18%
flux density
16%
damping
16%
continuums
14%
predictions
11%
Engineering & Materials Science
Wave propagation
87%
Hydrodynamics
70%
Acoustic waves
65%
Gases
47%
Spatial distribution
22%
Fluxes
16%
Damping
15%
Experiments
14%
Set theory
13%
Chemical Compounds
Hydrodynamics
78%
Wave
51%
Gas
43%
Standing Wave
42%
Diffusion
16%
Pressure
15%
Volume
15%