Add symbols as needed.
(To see these html symbols in action, visit chapter 16)


Properties:
Volume: <del><i class="math">V</i></del>
Volume flow rate: <i class="math"><del>V</del><sup><span style='margin-left:-.35em; font-size: 1.5em;'>&middot;</span></sup></i> 
Molar Mass: <i class="math">M<sup><span style='margin-left:-0.8em; font-size: 1.5em;'>&mdash;</span></sup></i> 
Specific Volume: <i class="math">v</i>
Velocity: <i class="math">V</i>
Entropy: <i class="math">S</i>
Enthalpy: <i class="math">H</i>
formation enthalpy (<i class='math'>h</i><sup><span style="margin-left:-8px;">–</span>o</sup><span style="margin-left:-5px;">
Pressure: <i class="math">p</i>
Temperature: <i class="math">T</i>
Specific Heat: <i class="math">c</i><sub>p</sub>
Rate of Change of Temperature: d<i class="Math">T</i>/d<i class="Math">t</i>
Exergy/Relative Humidity: <i class="math">Φ</i>
Rate of Change of Exergy: d<i class="math">Φ</i>/d<i class="Math">t</i>
Change in Exergy: Δ<i class="math">Φ</i>
Destruction of Exergy: <i class="math">I</i> 
Rate of Exergy Destroyed: <i class="math">I</i><sup><span style='margin-left:-6px; font: 20px bold;'>⋅</span></sup>
Thermal Efficientcy: <i class="math">η</i><sub>th</sub> 
Volume Expansivity: <i class='math'>β</i>
Isothermal Compressibility: <i class='math'>κ<sub>T</sub></i>
Joule-Thomson Coefficient: <i class = 'math'>μ<sub>J</sub></i>
Humidity Ratio/Specific Humidity: <i class="math">ω</i>
Percentage of Theoretical Air: <i class="math">λ</i>
Adiabatic Flame Temperature: <i class="math">T</i><sub>af</sub>
Equivalence Ratio: φ 
Chemical Potential: <i class="math">μ</i><sup><span style="margin-left:-6px;">–</span></sup><sub>k</sub>

delta_specific vol: &Delta;<i class='math'>v</i>
delta_H         &Delta;<i class='math'>H</i>
delta_p		&Delta;<i class='math'>p</i>
delta_T		&Delta;<i class='math'>T</i>
delta_Vol		&Delta;<del><i class="math">V</i></del>
delta_U		&Delta;<i class='math'>U</i>
delta_S		&Delta;<i class='math'>S</i>
delta_E		&Delta;<i class='math'>E</i>

Reaction Kinetics:
CO + 1/2O<sub>2</sub> ↔ CO<sub>2</sub> 
<i class='math'>h</i><sup><span style="margin-left:-6px;">–</span>o</sup><sub>f</sub>

&Delta;<i class='math'>g</i><sup><span style="margin-left:-6px;">–</span>o</sup>
 <i class='math'>K<sub>p</sub></i> = 8.4 X 10<sup>-10</sup> 

Units/Efficiency:

degC:		#<sup>o</sup>C
degF:		#<sup>o</sup>F
eta_th:         <i class="math">&eta;</i><sub>th</sub>
eta_th braytn   <i class="math">&eta;</i><sub>th,Brayton</sub>
eta, rankine    <i class="math">&eta;</i><sub>th,Rankine</sub>



Heat and Work:
Q:		<i class="math">Q</i>
Qdot: 		<i class="math">Q</i><sup><span style='margin-left:-6px; font: 20px bold;'>⋅</span></sup>
W,ext:		<i class="math">W</i><sub>ext</sub>
W,M:		<i class="math">W</i><sub>M</sub>
W,B:		<i class="math">W</i><sub>B</sub>
W,el:		<i class="math">W</i><sub>el</sub>
W,sh:		<i class="math">W</i><sub>sh</sub>

Wdot,ext:	<i class="math">W</i><sup><span style='margin-left:-8px; font: 20px bold;'>⋅</span></sup><sub>ext</sub>
Wdot,M:		<i class="math">W</i><sup><span style='margin-left:-8px; font: 20px bold;'>⋅</span></sup><sub>M</sub>
Wdot,B:		<i class="math">W</i><sup><span style='margin-left:-8px; font: 20px bold;'>⋅</span></sup><sub>B</sub>
Wdot,el:	<i class="math">W</i><sup><span style='margin-left:-8px; font: 20px bold;'>⋅</span></sup><sub>el</sub>
Wdot,sh:	<i class="math">W</i><sup><span style='margin-left:-8px; font: 20px bold;'>⋅</span></sup><sub>sh</sub>
Wdot,Flow:	<i class="math">W</i><sup><span style='margin-left:-8px; font: 20px bold;'>⋅</span></sup><sub>F</sub>

Transport Properties:
dm/dt:          d<i class="Math">m</i>/d<i class="Math">t</i>
mdot:		<i class="math">m</i><sup><span style='margin-left:-9px; font: 20px bold;'>⋅</span></sup>
Edot:		<i class="math">E</i><sup><span style='margin-left:-13px; font: 20px bold;'>⋅</span></sup>
edot:		<i class="math">e</i><sup><span style='margin-left:-13px; font: 20px bold;'>⋅</span></sup>
kedot:		ke<sup><span style='margin-left:-13px; font: 20px bold;'>⋅</span></sup>
PEdot:		PE<sup><span style='margin-left:-10px; font: 20px bold;'>⋅</span></sup> 
KEdot:          KE<sup><span style='margin-left:-10px; font: 20px bold;'>⋅</span></sup>
Edot:		<i class="math">E</i><sup><span style='margin-left:-5px; font: 20px bold;'>⋅</span></sup>
Jdot:		<i class="math">J</i><sup><span style='margin-left:-5px; font: 20px bold;'>⋅</span></sup>
jdot:		<i class="math">j</i><sup><span style='margin-left:-5px; font: 20px bold;'>⋅</span></sup>
Flow Exergy :        <i class="math">&Psi;</i><sup><span style='margin-left:-5px; font: 20px bold;'>⋅</span></sup>
Sdot:		<i class="math">S</i><sup><span style='margin-left:-5px; font: 20px bold;'>⋅</span></sup> 
Sdot_gen:       <i class="math">S</i><sup><span style='margin-left:-5px; font: 20px bold;'>⋅</span></sup><sub>gen</sub>  
Exergy Dest     <i class="math">I</i><sup><span style='margin-left:-5px; font: 20px bold;'>⋅</span></sup>


Total and specific Properties:

E :             <i class="math">E</i>  
Einitial:       <i class="math">E</i><sub>i</sub>
Efinal:         <i class="math">E</i><sub>f</sub>
s:              <i class="math">s</i>
Stored Exergy : <i class="math">&Phi;</i>  
Specific stored Exergy :        <i class="math">&phi;</i>  
Flow Exergy :        <i class="math">&Psi;</i>  
Specific Flow Exergy :        <i class="math">&psi;</i>