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ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 10 Complete the items below
Name:_________________________
1. (5 pt) If P > Psat(T), the phase is a __subcooled liquid__.
2. (5 pt) if P < Psat(T), the phase is __superheated vapor__.
3. (5 pt) if T > Tsat(P), the phase is __superheated vapor__.
4. (5 pt) If T < Tsat(P), the phase is __subcooled liquid__.
5. (5 pt) If uf <= u <= ug , the phase is a __2-phase mixture__.
6. (5 pt)If u < uf, the phase is a __subcooled liquid__.
7. (5 pt) If u > ug, the phase is a __superheated vapor__.
8. (5 pt) The phase of water at 2.00 bars and 0.7 m3/kg is a __2-phase mixture__.
9. (5 pt) The phase of water at 2.00 bars and 0.00105 m3/kg is a __subcooled liquid__.
10. (5 pt) The phase of water at 2.00 bars and 0.95 m3/kg is a __superheated vapor__.
11. (5 pt) The u of water at 5.00 bars and 200 oC is __2642.9__ kJ/kg.
12. (10 pt) A compressed (subcooled) liquid can be approximated as a __saturated__ liquid at the
same __temperature__ with good accuracy.
13. (5 pt) The h of water at 150 oC and 10 bars is about __632.2__ kJ/kg.
14. (10 pt) Write the definition of cP below.
P
P
hc
T
15. (10 pt) Write the definition of cv below.
v
v
uc
T
16. (10 pt) Write the definition of the specific heat ratio, k, below.
k = cP / cv
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 11 Complete the items below
Name:_________________________
1. (10 pt) The specific volume, internal energy and enthalpy of an incompressible substance only
depend upon __temperature__, not __pressure__.
2. (10 pt) The equation for calculating the change in the specific internal energy of an
incompressible whose specific heat do not change with temperature is:
3. (10 pt) The equation for calculating the change in the specific internal energy of an
incompressible whose specific heat do not change with temperature is:
+vP
4. (10 pt) Write the equation of state of an ideal gas below.
Pv = RT
5. (10 pt) Write the definition of the compressibility factor below.
z = Pv / RT
6. (15 pt) Gasses can be treated as ideal gases when the __pressure__ is low or the
__temperature__ is high relative to the __critical__ pressure and temperature.
7. (5 pt) When an ideal gas undergoes an isochoric process of increasing pressure, the temperature
increases/decreases.
8. (5 pt) When an ideal gas undergoes an isothermal process of increasing pressure, the volume
increases/decreases.
9. (5 pt) When an ideal gas undergoes an isobaric process of increasing temperature, the volume
increases/decreases.
10. (10 pt) When using the ideal gas equation of state, you must use __absolute__ pressures and
__absolute__ temperatures.
11. (10 pt) Write the relationship between the universal gas constant and the gas constant of a
specific gas below.
R = Ru / M
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 12 Complete the items below
Name:_________________________
1. (10pt) In general, there are 2 specific heats, specific heat at constant volume and specific heat
at constant pressure.
2. (15pt) The equation defining the specific heat at constant pressure:
3. (10 pt) The specific enthalpy and internal energy of ideal gases only depends upon temperature,
not pressure.
4. (15 pt) The equation for calculating the change in the specific enthalpy of an ideal gas whose
specific heats do not change with temperature is:
5. (10 pt) The equation that relates the two specific heats of ideal gases is:
cP – cv = R
6. (10 pt) A special case of the polytropic process is when n = k where k is the specific heat ratio.
7. (10 pt) The first law for a closed system consisting of an ideal gas whose specific heats do not
vary with temperature reduces to:
q – w = cv(T2 - T1)
8. (10 pt) When the specific heats of an ideal gas change significantly with temperature, one must
use ideal gas tables to determine changes in specific enthalpy and internal energy.
9. (10pt) The independent variable in an ideal gas table is the temperature.
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson2 Complete the items below
1) (5 pt) A CLOSED SYSTEM is also known as a ___control mass_______.
2) (5 pt) A CONTROL VOLUME is also known as a ___open_____ system.
3) (5 pt) A CONTROL SURFACE forms the ____boundary___ of a system.
4) (5pt) Properties that depend upon the size of a system are also __extensive____ Properties.
5) (5 pt) PROPERTIES PER UNIT MASS are also __INTENSIVE__ Properties.
6) (5 pt) INTENSIVE PROPERTIES do/do not change as the size of the system changes?
7) (10 pt)Describe how EQUILIBRIUM differs between mechanics courses and thermal science
courses below:
Mechanics – all forces are in balance
Thermal Science – Other factors including mechanical, thermal, phase, and chemical equilibrium
must be considered
8) (10 pt) Describe an EQUILIBRIUM STATE below:
When a system is isolated and it condition does not change, it is said to be in an equilibrium
state.
9) (10 pt) List the base units of the SI system below:
mass-kg, length-m, time-s
10) (10 pt) List the base units of the EES system below:
mass-lb, length-ft, time-s, force- lbf
11) (10 pt) What is the lb-lbf unit conversion constant in the EES unit system?
1 lbf = 32.174 ft-lbm/s2
12) (10 pt) What is the kg-N unit conversion constant in the SI system?
1 N = 1 kg-m/s2
13) (10 pt) What is the weight (in lbf) of a person on the moon where g = 5 ft/s2 whose earth mass is
100 lb?
15.54 lbf
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 3 Complete the items below
1) (5 pt) A Pascel (Pa) is defined as __1 N/m2__.
2) (10 pt) Write the relationship between absolute and gage pressures below using the textbook
symbols:
Pgage = Pabs + Patm
3) (10 pt) Write the change of pressure with depth for a fluid of constant density below in terms of
the density and specific weight below:
∆P = ρg ∆z = g ∆z
4) (5 pt) When one remains at the same level in a fluid, the fluid pressure
increases/decreases/remains the same.
5) (10 pt) At standard conditions, an absolute pressure of 24 in of H2O equals __0.867__ psia.
6) (10pt) At standard conditions, a barometer reads 730 mm Hg. What is this pressure in kPa
units? 97.2 kPa
7) (10 pt) Specific gravity is defined as the ratio of a substance’s density to that of water. Write the
definition of specific gravity in terms of the substances specific volume and that o f water below.
SG = vh2o / v
8) (10 pt) Specific weight is defined as the weight per unit volume. Write the equation for specific
weight in terms of specific volume and gravitational acceleration below.
SW = g/v
9) (10 pt) Write the equation for density below. Use the symbols of your textbook.
ρ = m / V
10) (10 pt) Write the equation for specific volume below. Use the symbols of your textbook.
v = V / m
11) (10 pt) How are density and specific volume related? Use an equation below to state this
relationship.
v = 1 / ρ
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 4 Complete the items below
Name:_________________________
1. (10 pt) The equation for specific kinetic energy (KE/m) is: ke = V2/2.
2. (10pt) The equation for specific potential energy (PE/m) is: pe = gz.
3. (5 pt) The integral of a point function (exact differential) such as volume results in the change in
the volume.
4. (5 pt) The integral of a path function (inexact differential) such as work results in the total
amount done.
5. (10 pt) The general equation for work transfer in vector form is: W = int P dot ds .
6. (10 pt) Write the thermodynamic definition of work below.
Work is any interaction between a system and surroundings that can be reduced to the lifting of
a weight.
7. (5 pt) Work produced by a system is positive or negative?
8. (5 pt) Work is not a property.
9. (5 pt) Write the definition of power below.
Power is the rate at which work is transferred.
10. (10 pt) Write the equation for expansion/compression work below. W = int PdV
11. (5 pt) Write the definition of a quasi-equilibrium process below.
A process during which the system is always infinitesimally close to equilibrium.
12. (5 pt) Areas below a quasi-equilibrium process line on a P-V or P-v diagram represent work.
13. (5 pt) Write the equation for a polytropic process below. Pvn = constant.
14. (10 pt) Write the equation for the expansion/compression work of a polytropic process below.
W = (1/1-n)(P2V2-P1V1)
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 5 Complete the items below
Name:_________________________
1. (10 pt) Internal energy is the sum of all the forms of energy except __kinetic__ and
__potential__ energy.
2. (15 pt) The equation for specific kinetic energy is: ke = V2/2.
3. (15pt) The equation for specific potential energy is; pe = gz.
4. (15 pt) The equation for quasi-equilibrium expansion/compression work is: W = intPdV
5. (10 pt) The only two forms of energy transfer associated with a closed system are heat transfer
and work.
6. (5 pt) Heat transfer is due to a __temperature difference__ between the system and
surroundings.
7. (5 pt) Heat transfer into a system is considered positive/negative.
8. (5 pt) Heat is not a __property__.
9. (5 pt)The sign convention for Q is the same as/opposite to that of W.
10. (5 pt) An adiabatic process is one with no heat transfer.
11. (10 pt) The equation for electrical power (rate at which electrical work is transferred) is: Wdot =
VI.
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 6 Complete the items below
Name:_________________________
1) (10 pt) The general equation for work transfer in vector form is:
2) (5 pt) The equation for shaft power is:
3) (5 pt) The equation for stress work is:
4) (5 pt) The first law of thermodynamics is a statement of the __conservation__ of energy
principle.
5) (15 pt) The rate at which energy __enters__ a system minus the __rate__ at which it leaves
must equal the __rate__ at which the energy of a system changes
6) (15 pt) For this course, the only energy forms considered are __kinetic__, __potential__, and
__internal__ energies.
7) (10 pt) Energy is transferred to and from a system by __work__ and __heat__ transfers.
8) (15) Write the first law for a closed system below:
9) (10 pt) Write the first law for a transient system below:
10) (10 pt) Write the first law for a cyclic device below:
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 7 Complete the items below
Name:_________________________
1. (10 pt) A thermal energy reservoir exchanges __heat__ with a cyclic system
2. (20 pt) In order to be considered a power cycle, a system must:
Receive heat from a high-temperature reservoir
Convert part of the heat to work
Reject waste heat to a low-temperature reservoir
Operate in a cycle 3. (10 pt) Write the first law as applied to a heat engine below:
4. (10 pt) Write the equation for the thermal efficiency of a heat engine in terms of the heat transfers below:
5. (10 pt) Write the equation for the thermal efficiency of a heat engine in terms of the work and heat in below.
6. (5 pt) Write the equation for the refrigerator coefficient of performance in terms of the heat addition and work input below: COPr = Qin / Win
7. (5 pt) Write the equation for the heat pump coefficient of performance in terms of the heat
rejection and work input below: COPhp = Qout / Win
8. (20 pt) In order to be considered a heat pump cycle, a system must:
Receive heat from a low-temperature reservoir
Convert the added work into heat
Reject heat to a high-temperature reservoir
Operate in a cycle 9. (10 pt) The change in the working fluid properties of a cyclic device each time a cycle is
completed is zero.
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 8 Complete the items below
Name:_________________________
1) (5 pt) A PURE SUBSTANCE is ___Chemically_______________ homogeneous throughout.
2) (10 pt) Write the general state principle (postulate) in terms of the work modes below:
A state is completely determined when number of relevant work modes + 1 independent
properties are know.
3) (10 pt) Describe how one distinguishes a simple compressible substance.
The only relevant work mode is volume expansion/compression.
4) (5 pt) How many independent intensive properties does a simple compressible substance have?
2
5) (5 pt) Pressure is/is not independent of temperature for a 2-phase mixture.
6) (10 pt) Define a saturation state.
A state where the substance is 2-phase or ready to change phase
7) (10 pt) What are the critical pressure and temperature of water? 220.9 bar, 647.3 K
8) (10 pt) The lines on a P-v state diagram that mark the vapor dome of a phase-changing system
represent ___saturation___ states.
9) (5 pt) The triple-point on a phase diagram becomes a ___line___ on a P-v state diagram.
10) (5 pt) The peak of the liquid-vapor saturation dome is known as the __Critical
point_____________.
11) (10 pt) Sketch the phase diagram for water below
12) (10 pt) Sketch the P-v state diagram for the liquid and vapor phases of water below.
13) (5 pt) Add isothermal process lines to the sketch of Problem 12.
ME 2322 – Thermodynamics I PRE-LECTURE
Lesson 9 Complete the items below
Name:_________________________
1) (5 pt) A SATURATED LIQUID is a liquid about to change into a ____Vapor________.
2) (5 pt) A SATURATED VAPOR is a vapor about to change into a ___liquid______.
3) (5 pt) A COMPRESSED LIQUID is a liquid whose pressure is ___Higher___ than the saturation
pressure at the same temperature.
4) (5 pt) A SUPERHEATED VAPOR is a vapor whose temperature is ___greter____ than the
saturation temperature at the same pressure.
5) (10 pt) When a system is at the saturation pressure and temperature which of the phases below
can be present? Clearly mark your answers.
a. Subcooled liquid
b. Saturated liquid
c. Saturated vapor
d. Superheated vapor
6) (10 pt) SI Saturated liquid-vapor pressure-temperature pairs for water are listed in Tables A- __2
or 2E___ and __3 or 3E___
7) (10 pt) In the liquid-vapor saturation tables the saturated liquid states are noted by the __f___
subscript and saturated vapor states by the __g_ subscript.
8) (10 pt) Define the quality in words below:
The mass fraction of vapor in a saturated mixture
9) (10 pt) Use an equation to define the quality below:
z = zf +x(zg-zf)
10) (5 pt) Does quality have any meaning for a subcooled liquid of superheated vapor? NO
11) (10 pt) The specific volume of a liquid-vapor mixture of water at 160 oC with a quality of 50% is:
0.1541 m^3/kg
12) (10 pt) The quality of an ammonia mixture whose specific volume is 0.1 m3/kg and pressure is
3.25 bars is: 26%
13) (5 pt) Sublimination is the direct conversion of a ___solid_________ to a vapor.