Please enable JavaScript.
Coggle requires JavaScript to display documents.
THERMODYNAMICS - Coggle Diagram
THERMODYNAMICS
Introduction & Basic Concepts
Definition of Thermodynamics
Study of energy and its transformations
Basic Concepts
Surroundings
Boundary
System
Thermodynamic Properties
Enthalpy
Internal Energy + Pressure volume work
Specific Heat
Energy required for temperature change
Internal Energy
Microscopic Energy
Energy, Work, and Heat
Conservation of Energy Principle
First Law of Thermodynamics
Work and Heat Transfer Definitions
Mechanical work, Heat transfer
Law of Thermodynamics
Zeroth Law of Thermodynamics
1st Law of Thermodynamics
3rd Law of Thermodynamics
2nd Law of Thermodynamics
Energy, Energy Transfer, and
General Energy Analysis
Energy Transfer Mechanisms
Convection
Radiation
Conduction
General Energy Analysis
Conservation of Energy
Types of Energy
Potential Energy
Internal Energy
Kinetic Energy
Temperature and Pressure Measurements
Importance in Thermodynamics
Fundamental parameters for analysis
Measurement Devices
Pressure Gauges
Thermometers
Mass and Energy
Analysis of Control Volumes
Mass Balance Equation
Conservation of Mass
Energy Balance Equation
Conservation of Energy for Control Volumes
Control Volume Concept
Region of space for analysis
Continuity Equation
Importance of Fluid Dynamics
Definition and Application
Conservation of mass for fluid flow
Bernoulli Equation
Application in Fluid Dynamics
Energy conservation in fluids
Relationship with Energy Conservation
Links between (in fluids):
Velocity
Elevation
Pressure
Thermodynamic Systems
Closed System
Isolated System
Open System