##### School: University of Delaware

##### Department: OTHER

##### Course: Thermodynamics

##### Professor: Heather doty

##### Term: Fall 2018

##### Tags: mechanical engineering, Thermodynamics, Specific-Heat, solids, liquids, Compressed-Liquid, saturated, Saturated-Liquid, Saturated-Vapor, liquid-vapor, Superheated-Vapor, Interpolation, temperature, pressure, Volume, liquid-approximation, universal-gas-constant, Ideal-Gas, nonideal-gas, gas, particular-gas-constant, Molecular-weight, compressibility-factor, reduced-pressure, reduced-temperature, Critical-Point, critical-pressure, critical-temperature, molar-specific-volume, Specific-Volume, generalized-compressibility-chart, ideal-gas-model, Internal-Energy, Enthalpy, constant, Integration, specific-enthalpy, system, 1st-law, control-volume, mass, mass-rate-balance, mass-flow, velocity, Density, steady-state, 1st-law-control-volume, Closed-System, work, potential-energy, outlet, inlet, Heat-Transfer, nozzle, diffuser, modeling, turbine, compressor, Pump, centrifugal, heat-exchangers, Throttling-device, system-integration, condenser, and boiler

##### Cost: 25

##### Name: MEEG241-Thermodynamics week 4

##### Description: Summary of notes from week 4

##### Uploaded: 10/16/2018