Skip to main navigation
Skip to search
Skip to main content
Penn State Home
Help & FAQ
Link opens in a new tab
Search content at Penn State
Home
Researchers
Research output
Research units
Equipment
Grants & Projects
Prizes
Activities
Lagrangian available energetics and parcel instabilities
Peter R. Bannon
Meteorology and Atmospheric Science
Research output
:
Contribution to journal
›
Article
›
peer-review
6
Link opens in a new tab
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Lagrangian available energetics and parcel instabilities'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Lagrangian
100%
Available Potential Energy
100%
Kinetic Energy
60%
Work-as-done
60%
Inviscid
40%
Mean Flow
40%
Reference State
40%
Elastic Energy
40%
Available Energy
40%
Pressure Gradient Force
40%
Horizontal Pressure Gradients
40%
Convection
20%
Buoyancy Force
20%
Potential Energy
20%
Diabatic Processes
20%
Modified Forms
20%
Static Power
20%
Energy Contribution
20%
Frictional Processes
20%
Available Potential
20%
Multicomponent Fluid
20%
Convective Available Potential Energy
20%
Lagrangian Perspective
20%
Arbitrary Reference
20%
Scapes
20%
Adiabatic Flow
20%
Adiabatic Condition
20%
Compressible Fluid
20%
Base State
20%
Inertial Instability
20%
Symmetric Instability
20%
Coriolis Force
20%
Engineering
Energy Engineering
100%
Energetics
100%
Potential Energy
100%
Convective
28%
Pressure Gradient
28%
Available Energy
28%
Reference State
28%
Elastic Energy
28%
Buoyancy Force
14%
Initial Value
14%
Initial State
14%
Compressible Fluid
14%
Adiabatic Flow
14%
Symmetric Case
14%
Coriolis Force
14%
Basis State
14%
Chemistry
Energetics
100%
Potential Energy
100%
Lagrangian
100%
Kinetic Energy
42%
Base
14%
Enthalpy
14%
Chemical Engineering
Enthalpy
100%