Solutions for EBK THERMODYNAMICS: AN ENGINEERING APPR
Problem 1P:
What is the difference between the classical and the statistical approaches to thermodynamics?Problem 2P:
The value of the gravitational acceleration g decreases with elevation from 9.807 m/s2 at sea level...Problem 3P:
One of the most amusing things a person can experience is when a car in neutral appears to go uphill...Problem 4P:
An office worker claims that a cup of cold coffee on his table warmed up to 80C by picking up energy...Problem 7P:
What is the net force acting on a car cruising at a constant velocity of 70 km/h (a) on a level road...Problem 8P:
1–8 At 45° latitude, the gravitational acceleration as a function of elevation z above sea level is...Problem 9P:
What is the weight, in N, of an object with a mass of 200 kg at a location where g = 9.6 m/s2?Problem 10P:
A 3-kg plastic tank that has a volume of 0.2 m3 is filled with liquid water. Assuming the density of...Problem 13P:
Solve Prob. 113 using appropriate software. Print out the entire solution, including the numerical...Problem 14P:
A 4-kW resistance heater in a water heater runs for 3 hours to raise the water temperature to the...Problem 15P:
A 150-lbm astronaut took his bathroom scale (a spring scale) and a beam scale (compares masses) to...Problem 16P:
The gas tank of a car is filled with a nozzle that discharges gasoline at a constant flow rate....Problem 18P:
A large fraction of the thermal energy generated in the engine of a car is rejected to the air by...Problem 20P:
1–20C A can or soft drink at room temperature is put into the refrigerator so that it will cool....Problem 22P:
Is the number of moles of a substance contained in a system an extensive or intensive property?Problem 23P:
Is the state of the air in an isolated room completely specified by the temperature and the...Problem 24P:
The specific weight of a system is defined as the weight per unit volume (note that this definition...Problem 31P:
1–31C What are the ordinary and absolute temperature scales in the SI and the English system?
Problem 39P:
The temperature of a system drops by 45F during a cooling process. Express this drop in temperature...Problem 40P:
Explain why some people experience nose bleeding and some others experience shortness of breath at...Problem 41P:
A health magazine reported that physicians measured 100 adults blood pressure using two different...Problem 42P:
Someone claims that the absolute pressure in a liquid of constant density doubles when the depth is...Problem 44P:
Consider two identical fans, one at sea level and the other on top of a high mountain, running at...Problem 45P:
A vacuum gage connected to a chambee reads 35 kPa at a location where the atmospheric pressure is 92...Problem 47P:
1–47E The pressure in a water line is 1500 kPa. What is the line pressure in (a) lb/ft2 units and...Problem 48P:
1–48E If the pressure inside a rubber balloon is 1500 mmHg, what is this pressure in pounds-force...Problem 49P:
A manometer is used to measure the air pressure in a tank. The fluid used has a specific gravity of...Problem 50P:
1–50 The water in a tank is pressurized by air, and the pressure is measured by a multifluid...Problem 51P:
1–51 Determine the atmospheric pressure at a location where the barometric reading is 750 mmHg. Take...Problem 52P:
A 200-pound man has a total foot imprint area of 72 in2. Determine the pressure this man exerts on...Problem 53P:
The gage pressure in a liquid at a depth of 3 m is read to be 42 kPa. Determine the gage pressure m...Problem 54P:
The absolute pressure in water at a depth of 9 m is read to be 185 kPa. Determine (a) the local...Problem 55P:
1–55E Determine the pressure exerted on the surface of a submarine cruising 175 ft below the free...Problem 56P:
1–56 Consider a 70-kg woman who has a total foot imprint area of 400 cm2. She wishes to walk on the...Problem 58P:
The barometer of a mountain hiker reads 750 mbars at the beginning of a hiking trip and 650 mbars at...Problem 59P:
The basic barometer can be used to measure the height of a building. If the barometric readings at...Problem 62P:
A gas is contained in a vertical, frictionless pistoncylinder device. The piston has a mass of 3.2...Problem 63P:
Reconsider Prob. 158. Using appropriate software, investigate the effect of the spring force in the...Problem 64P:
Both a gage and a manometer are attached to a gas tank to measure its pressure. If the reading on...Problem 65P:
Reconsider Prob. 161. Using appropriate software, investigate the effect of the manometer fluid...Problem 66P:
A manometer containing oil ( = 850 kg/m3) is attached to a tank filled with air. If the oil-level...Problem 67P:
A mercury manometer ( = 13.600 kg/m3) is connected to an air duct to measure the pressure inside....Problem 69P:
The pressure in a natural gas pipeline is measured by the manometer shown in Fig. P167E with one of...Problem 71P:
Blood pressure is usually measure by wrapping a closed air-filled jacket equipped with a pressure...Problem 72P:
The maximum blood pressure in the upper arm of a healthy parson is about 120 mmHg. If a vertical...Problem 74P:
Consider a U-tube whose arms are open to the atmosphere. Now water is poured into the U-tube from...Problem 75P:
Consider a double-fluid manometer attached to an air pipe shown in Fig. P172. If the specific...Problem 78P:
Calculate the absolute pressure. P1, of the manometer shown In Fig. 173 in kPa. The local...Problem 79P:
Consider the manometer in Fig. 173. If the specific weight of fluid A is 100 kN/m5, what is the...Problem 80P:
Consider the manometer in Fig. 173. If the specific weight of fluid B is 20 kN/m3, what is the...Problem 81P:
Consider the system shown in Fig. 177. If a change of 0.7 kPa in the pressure of air causes the...Problem 82P:
What is the value of the engineering software packages in (a) engineering education and (b)...Problem 83P:
Determine a positive real root of this equation using appropriate software: 2x210x0.53x=3Problem 85P:
Solve this system of three equations with three unknowns using appropriate software:...Problem 86P:
Solve this system of three equations with three unknowns using appropriate software:...Problem 88RP:
The reactive force developed by a jet engine to push an airplane forward is called thrust, and the...Problem 89RP:
A man goes to a traditional market to buy a steak for dinner. He finds a 12-oz steak (1 lbm = 16 oz)...Problem 91RP:
A hydraulic lift is to be used to lift a 1900-kg weight by putting a weight of 25 kg on a piston...Problem 97RP:
It is well known that cold air feels much colder in windy weather than what the thermometer reading...Problem 98RP:
Reconsider Prob. 1116E. Using appropriate software, plot the equivalent wind chill temperatures in F...Problem 99RP:
A vertical pistoncylinder device contains a gas at a pressure of 100 kPa. The piston has a mass of...Problem 100RP:
An air-conditioning system requires a 35-m-long section of 15-cm-diameier ductwork to be laid...Problem 101RP:
The average body temperature of a person rises by about 2C during strenuous exercise. What is the...Problem 102RP:
Balloons are often filled with helium gas because it weighs only about one-seventh of what air...Problem 103RP:
Reconsider Prob. 1101. Using appropriate software, investigate the effect of the number of people...Problem 104RP:
Determine the maximum amount of load, in kg, the balloon described in Prob. 1101 can carry Answer:...Problem 105RP:
The lower half of a 6-m-high cylindrical container is filled with water ( = 1000 kg/m3) and the...Problem 106RP:
A vertical, frictionless pistoncylinder device contains a gas at 180 kPa absolute pressure. The...Problem 107RP:
A pressure cooker cooks a lot faster than an ordinary pan by maintaining a higher pressure and...Problem 109RP:
Consider a U-tube whose arms are open to the atmosphere. Now equal volumes of water and light oil (...Problem 111RP:
A water pipe is connected to a double-U manometer as shown m Fig. 1109E at a location where the...Problem 112RP:
A gasoline line is connected to a pressure gage through a double-U manometer, as shown in Fig. 1110....Problem 113RP:
Repeat Prob. 1110 for a pressure gage reading of 180 kPa.Problem 114RP:
The average atmosphere pressure on earth is approximated as a function of attitude by the relation...Problem 117RP:
Consider the flow of air through a wind turbine whose blades sweep an area of diameter D (in m). The...Problem 118RP:
The drag force exerted on a car by air depends on a dimensionless drag coefficient, the density of...Problem 119FEP:
An apple loses 3.6 kJ of heat as it cools per C drop in its temperature. The amount of heat loss...Problem 120FEP:
Consider a fish swimming 5 m below the free surface of water. The increase in the pressure exerted...Problem 121FEP:
The atmospheric pressures at the top and the bottom of a building are read by a barometer to be 96.0...Problem 122FEP:
Consider a 2.5-m-deep swimming pool. The pressure difference between the top and bottom of the pool...Browse All Chapters of This Textbook
Chapter 1.11 - Problem-solving TechniqueChapter 2.8 - Energy And EnvironmentChapter 3.8 - Other Equations Of StateChapter 4.5 - Internal Energy, Enthalpy, And Specific Heats Of Solids And LiquidsChapter 5.5 - Energy Analysis Of Unsteady-flow ProcessesChapter 6.11 - The Carnot Refrigerator And Heat PumpChapter 7.13 - Entropy BalanceChapter 8.8 - Exergy Balance : Control VolumesChapter 9.12 - Second-law Analysis Of Gas Power CyclesChapter 10.9 - Combined Gas-vapor Power Cycles
Chapter 11.10 - Absorption Refrigeration SystemsChapter 12.6 - The Dh, Du, And Ds Of Real GasesChapter 13.3 - Properties Of Gas Mixtures: Ideal And Real GasesChapter 14.7 - Air-conditioning ProcessesChapter 15.7 - Second-law Analysis Of Reacting SystemsChapter 16.6 - Phase EquilibriumChapter 17.7 - Steam Nozzles
Book Details
Thermodynamics, An Engineering Approach, eighth edition, covers the basic principles of thermodynamics while presenting a wealth of real-world engineering examples so students get a feel for how thermodynamics is applied in engineering practice. This text
Sample Solutions for this Textbook
We offer sample solutions for EBK THERMODYNAMICS: AN ENGINEERING APPR homework problems. See examples below:
Chapter 1.11, Problem 1PWrite the expression of conversion relation for the constant-pressure specific heat of air from...Write the expression of conversion relation for the pressure in the tank from kPa to kN and m units....Write the formula to calculate the gage pressure (Pgage). Pgage=Pabs−Patm (for pressures above Patm)...Chapter 1.11, Problem 59PChapter 1.11, Problem 69PChapter 1.11, Problem 70PChapter 1.11, Problem 71PChapter 1.11, Problem 81P
Chapter 1.11, Problem 90RPChapter 1.11, Problem 102RPWrite the formula to calculate pressure at the location of the airplane (Pplane). Pplane=(ρgh)plane...Write the expression to determine the pressure change (dP) across a differential fuild layer....Chapter 2.8, Problem 1PWrite the formula to calculate mechanical energy of the wind (emech). emech=ke=V22 (I) Here, kinetic...Chapter 2.8, Problem 34PThe total work required to accelerate the car on the uphill road is equal to the summation of the...Chapter 2.8, Problem 51PWrite the energy balance equation for a control volume when the car cruising is taken as the system....Chapter 2.8, Problem 68PWrite the formula to calculate mechanical energy of air per unit mass (emech). emech=ke=V22 (I)...Chapter 2.8, Problem 74PCalculate the rate of heat transfer by convection. Q˙conv=hAΔT=h(πD2)(Ts−To) (I) Here, change in the...Chapter 2.8, Problem 108RPWrite the formula to calculate mass flow rate of fuel in the exhaust (m˙fuel). m˙fuel=m˙airAF (I)...Write the expression the specific volume of the air. v=RTP (I). Here, specific volume of the air is...Chapter 2.8, Problem 123RPChapter 3.8, Problem 1PChapter 3.8, Problem 29PWrite the initial specific volume of the piston-cylinder device (v1). v1=vf+x(vg−vf) (I) Here,...Chapter 3.8, Problem 41PChapter 3.8, Problem 82PChapter 3.8, Problem 84PChapter 3.8, Problem 91PChapter 3.8, Problem 94PWrite the ideal gas equation. P2=P1(T2T1) (I) Here, pressure at state 2 is P2, pressure at state 1...Chapter 3.8, Problem 96PChapter 3.8, Problem 97PRefer to Table A-1, obtain the gas constant, critical pressure, and critical temperature of steam....Write the expression to obtain the buoyancy force acting on the hot-air balloon (FB). FB=ρcool...Chapter 4.5, Problem 1PChapter 4.5, Problem 20PWrite the energy balance equation for closed system. Ein−Eout=ΔEsystem (I) Here, energy transfer in...Chapter 4.5, Problem 29PChapter 4.5, Problem 39PChapter 4.5, Problem 54PWrite the mean change in enthalpy (Δh¯) for an ideal gas during heating process from state 1 to...Write the expression for the mass of the spring loaded piston cylinder device (m). m=P1ν1RT1 (I)...Chapter 4.5, Problem 79PChapter 4.5, Problem 85PDetermine the total initial volume of piston cylinder device. ν1=mfvf+mgvg (I) Here, the mass of the...Write the expression for mass of helium. m=P1V1RT1 (I) Here, the initial pressure of helium is P1,...Write the expression for the mass of the water. mw=ρV (I) Here, the density of the water is ρ and...Chapter 4.5, Problem 130RPWrite the expression for the energy balance equation. Ein−Eout=ΔEsystem (I) Here, the total energy...Chapter 4.5, Problem 139RPThe fluid flow in which the properties of the fluid remains unchanged with respect to change in time...Chapter 5.5, Problem 26PChapter 5.5, Problem 33PChapter 5.5, Problem 81PDraw the schematic diagram for the evaporator section. Write the formula to calculate the specific...Chapter 5.5, Problem 83PChapter 5.5, Problem 88PWrite the formula to calculate the volume of room (V). V=lbh (I) Here, length of room is l, width of...At the final observation, the valve is closed and the tank composed with one-half water and vapor at...Chapter 5.5, Problem 128PThe rate of water must be supplied to maintain the steady state operation is equal to the rate of...Chapter 5.5, Problem 168RPWrite the general mass balance equation. m˙in−m˙out=ddt(msystem)m˙in−m˙out=dmsystemdt (I) Here, the...Write the formula for mass of air (ma) at initial and final states. ma,1=(P1ν1RT1)a (I)...Chapter 5.5, Problem 177RPChapter 5.5, Problem 178RPChapter 5.5, Problem 185RPChapter 5.5, Problem 186RPChapter 5.5, Problem 187RPChapter 5.5, Problem 188RPChapter 6.11, Problem 1PChapter 6.11, Problem 26PChapter 6.11, Problem 55PChapter 6.11, Problem 101PChapter 6.11, Problem 104PChapter 6.11, Problem 105PWrite the highest thermal efficiency a heat engine between two specified temperature limits....Write the formula to calculate the mass flow rate of a refrigerant (m˙R). m˙R=v˙1v1 (I) Here, volume...Chapter 6.11, Problem 118PChapter 6.11, Problem 123RPDetermine the mass of the air in the truck. mair=ρair×νtruck=ρair×(l×b×h)truck (I) Here, the density...Determine the rate of water saved volume of the low-flow shower head a family of four will save per...Chapter 6.11, Problem 141RPDetermine the density of air at the indoor conditions. ρo=PoRTo (I) Here, the house maintain a...Determine the density of air at the indoor conditions. ρo=PoRTo (I) Here, the house maintain a...Chapter 6.11, Problem 149RPWrite the heat gain transfer rate equation (Q˙H). Q˙H=(hA)H(TH−TH*) (I) Here, heat transfer...According to the Clausius inequality, the cyclic integral of ∮δQT is always less than or equal to...Chapter 7.13, Problem 42PWrite the expression for the energy balance equation. Ein−Eout=ΔEsystem (I) Here, the total energy...Write the expression for the energy balance equation for closed system. Ein−Eout=ΔEsystem (I) Here,...Chapter 7.13, Problem 109PChapter 7.13, Problem 111PChapter 7.13, Problem 137PChapter 7.13, Problem 139PWrite the expression for the energy balance equation for closed system. E˙in−E˙out=ΔE˙system chicken...Chapter 7.13, Problem 156PWrite the expression for the energy balance equation for closed system. Ein−Eout=ΔEsystem (I) Here,...Write the relation between the pressure and temperature in the isentropic process: T2T1=(P2P1)k−1k...Write the expression to calculate the enthalpy change in process 1-2. ΔS1−2=−mRlnP2P1 (I) Here,...Chapter 7.13, Problem 177RPWrite the expression to calculate the mass of the steam in the cylinder. m=ν1v1 (I) Here, mass of...Chapter 7.13, Problem 181RPWrite the expression for the final entropy, s2. s4=sf+x4sfg (I) Here, final entropy is s4s1, final...Write the formula to calculate the specific volume of steam from tables (v). v=vf+x(vg−vf) (I) Here,...Write the expression for the energy balance equation for closed system. Ein−Eout=ΔEsystem (I) Here,...Write the expression for the energy balance equation for closed system without air in the room....Write the expression for the energy balance equation for closed system. Ein−Eout=ΔEsystem (I) Here,...Chapter 7.13, Problem 209RPWrite the expression for the energy balance equation for the closed system. ΔEin−ΔEout=ΔEsystem (I)...Chapter 8.8, Problem 1PChapter 8.8, Problem 27PChapter 8.8, Problem 32PChapter 8.8, Problem 47PDraw the schematic diagram of the flow of refrigerant-134a through evaporator section as shown in...Write the expression for the final mass (m2) stored in the tank. m2=Vv2 (I) Here, volume of the...Write the expression for the initial mass (m1) of helium in the cylinder. m1=P1VRT1 (I) Here,...Write expression for the mass balance on the chamber....Write the expression to calculate the specific volume of saturated water (v). v=vf+x(vg−vf) (I)...Write energy balance equation for a closed system of steam. Ein−Eout=ΔEsystem−Qout=ΔUQout=m(u1−u2)...Write the ideal gas equation to calculate the mass of the gas (m). m=P1V1RT1 (I) Here, initial...Chapter 8.8, Problem 119RPChapter 8.8, Problem 120RPWrite the formula to calculate initial mass of air in the tank (mi). mi=PiVRTi (I) Here, initial...Chapter 9.12, Problem 1PChapter 9.12, Problem 64PChapter 9.12, Problem 122PDraw the T−s diagram for pure jet engine as shown in Figure (1). Consider that the aircraft is...Chapter 9.12, Problem 130PChapter 9.12, Problem 132PChapter 9.12, Problem 133PDraw the T−s diagram for turbojet engine as shown in Figure (1). Consider, the pressure is Pi , the...Show the simple Brayton cycle, and with air as the working fluid on T−s diagram. For the given...Show the simple Brayton cycle, with air as the working fluid on T−s diagram. For the given Brayton...Show the regenerative Brayton cycle with air as the working fluid, on T−s diagram as in Figure (1)....Show the regenerative Brayton cycle with air as the working fluid, on T−s diagram as in Figure (1)....Chapter 9.12, Problem 148PDraw the P−v diagram of four stroke as in Figure (I). Refer to Table A-2b, obtain the properties of...Chapter 9.12, Problem 164RPChapter 9.12, Problem 166RPDraw the T−s diagram for pure jet engine as shown in Figure (1). Consider that the aircraft is...Draw the P−v and T−s diagram for the given cycle. Thus, the P−v and T−s diagrams for the given cycle...Chapter 10.9, Problem 1PChapter 10.9, Problem 53PChapter 10.9, Problem 62PChapter 10.9, Problem 65PChapter 10.9, Problem 77PDraw the T-s diagram for the combined gas-steam power cycle. Write the expression for the relation...Draw the T-s diagram for the combined gas-steam power cycle as shown in Figure (1). Write the...Chapter 10.9, Problem 82PChapter 10.9, Problem 94RPShow the T-s diagram as in Figure (1). Express Prandtl number at state 8s. Pr8s=P8sP7Pr7 (I) Here,...Chapter 10.9, Problem 107RPChapter 11.10, Problem 1PChapter 11.10, Problem 18PChapter 11.10, Problem 30PShow the T-s diagram for ideal vapor-compression refrigeration cycle as in Figure (1). From Figure...Chapter 11.10, Problem 44PShow the T-s diagram for compression refrigeration cycle as in Figure (1). From Figure (1), write...Chapter 11.10, Problem 54PSketch the schematic diagram for the two stage cascade refrigeration system as in Figure (1). Write...Chapter 11.10, Problem 76PChapter 11.10, Problem 111RPChapter 11.10, Problem 112RPChapter 11.10, Problem 113RPSketch the schematic layout of the two-stage compression refrigeration system as in Figure (1)....Chapter 12.6, Problem 1PWrite the equation of state of the given gas. P(v−a)=RT (I) Here, the temperature is T, the pressure...Write the mean change in enthalpy (h¯2−h¯1)ideal of ideal gas. (h¯2−h¯1)ideal=(h¯2)ideal−(h¯1)ideal...Write the mean change in enthalpy (h¯2−h¯1)ideal of water vapor....Write the energy balance equation for closed system. E˙in−E˙out=ΔE˙system (I) Here, rate of energy...Chapter 12.6, Problem 92RPWrite the energy rate balance equation for one inlet and one outlet system....Chapter 12.6, Problem 94RPWrite formula for specific volume (v) in terms of compressibility factor (Z). v=ZRTP (I) Here, the...Refer the table A-2Ec, “Ideal gas specific heats of various common gases”, obtain the empirical...Chapter 13.3, Problem 1PWrite the expression to calculate the mole number of the substance (N). N=mM (I) Here, the mass of...Write the expression to obtain the mass of O2 (mO2). mO2=NO2MO2 (I) Here, number of moles of O2 is...Chapter 13.3, Problem 57PWrite the expression to obtain the mole number of CH4 (NCH4). NCH4=mCH4MCH4 (I) Here, molar mass of...Write the entropy balance equation to obtain the expression of entropy generation in terms of H2 and...Write the entropy balance equation to obtain the expression of entropy generation in terms of O2 and...Chapter 13.3, Problem 93RPChapter 13.3, Problem 96RPWrite the expression to obtain the mole number of N2 (NN2). NN2=mN2MN2 (I) Here, molar mass of N2 is...Chapter 14.7, Problem 1PChapter 14.7, Problem 29PExpress initial partial pressure. Pν1=Pν2=ϕ1Pg1=ϕ1Psat@10°C (I) Here, partial pressure at state 2 is...Chapter 14.7, Problem 78PChapter 14.7, Problem 80PWrite the expression to obtain the volume flow rate (V˙1). V˙1=V1A1=V1(πD24) (I) Here, diameter is...Write the expression to obtain the vapor pressure of air (Pv1). Pv1=ϕ1Pg1=ϕ1Psat@90°F (I) Here,...Chapter 14.7, Problem 86PApply the dry air mass balance on the cooling tower. m˙a1=m˙a2=m˙a Here, mass flow rate of air at...Apply the dry air mass balance on the cooling tower. m˙a1=m˙a2=m˙a Here, mass flow rate of air at...Express the pressure of air. Pair=P−Pv=P−Psat@25°C (I) Here, the saturation pressure at temperature...Chapter 14.7, Problem 128RPWrite the expression to obtain the vapor pressure at inlet conditions (Pv1). Pv1=ϕ1Pg1=ϕ1Psat@30°C...Apply the dry air mass balance on the cooling tower. m˙a1=m˙a2=m˙a Here, mass flow rate of air at...Chapter 15.7, Problem 1PWrite the expression to calculate the number of moles of constituent (N) in a mixture. N=mM (I)...Express the number of moles of carbon. NC=mfCMC (I) Here, molar mass of carbon is MC and mole...Chapter 15.7, Problem 83PWrite the complete balanced reaction for combustion of octane (C3H8) with 70% excess theoretical...Chapter 15.7, Problem 89PWrite the chemical reaction for the combustion of liquid gas fuel mixture of 90% octane and 10%...Chapter 15.7, Problem 103RPChapter 15.7, Problem 108RPChapter 15.7, Problem 109RPChapter 15.7, Problem 110RPChapter 16.6, Problem 1PWrite the stoichiometric reaction for the reported process. H2O⇌H2+1/2O2 From the stoichiometric...Write the stoichiometric reaction for the reported process. H2O⇌H2+1/2O2 From the stoichiometric...Express the standard-state Gibbs function change. ΔG*(T)=vH2Og¯*H2O(T)−vH2g¯*H2(T)−vO2g¯*O2(T) (I)...Express the standard-state Gibbs function change. ΔG*(T)=vCOg¯*CO(T)+vO2g¯*O2(T)−vCO2g¯*CO2(T) (I)...Write the expression for the volume of oxygen used per lbmol of carbon monoxide (vCO). vCO=RTP (I)...Write the stoichiometric equation for combustion of 1 kmol of liquid propane (C3H8)....Chapter 16.6, Problem 38PWrite the expression for the stoichiometric reaction for reaction 1. H2O⇌H2+12O2 … (I) Here, the...Write the energy balance equation for the reported process. Ein−Eout=ΔEsystem (I) Here, input energy...Write the formula to calculate the stagnation temperature of ideal gas. T0=T+V22cp (I) Here, the...Chapter 17.7, Problem 85PWrite the expression for the velocity of sound after the normal shock. c2=kRT2 (I) Here, velocity of...Chapter 17.7, Problem 105PDetermine the inlet density of air. ρ1=P1RT1 (I) Here, the inlet pressure of air is P1, the...Chapter 17.7, Problem 110PFor isentropic, The flow of steam through the nozzle is steady and isentropic. Write the expression...For isentropic, The flow of steam through the nozzle is steady and isentropic. Write the expression...Write the given equation of state. P=RTv−b−av2 (I) Here, the pressure is P, the gas constant is R,...Chapter 17.7, Problem 135RPChapter 17.7, Problem 137RPChapter 17.7, Problem 147RPChapter 17.7, Problem 148RPWrite the Equation 17-38 as in text book (the relation between the pressures after shock and before...
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