Exams are coming!
Get ready with premium notes and study guides!

All Educational Materials for Yi Feng

UWCHE330Yi FengWinter

CHE330 Quiz: Solution 6.pdf

OC4171284 Page
35
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Gibbs Free Energy, Compressibility Factor, Fugacity

OC4171281 Page
26
Assume nitrogen and argon are ideal gases with cv = (5/2)r and cv = (3/2)r, respectively: the excess gibbs energy of a binary liquid mixture at t and p
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Equilibrium Constant

OC4171281 Page
38
10: the following reaction reaches equilibrium at 650 c and 1 bar: N2 (g) + c2h2 (g) = 2 hcn (g) The system initially is an equal molar mixture of n2 a
View Document
UWCHE330Yi FengWinter

CHE330 Quiz: Solution 10.pdf

OC4171282 Page
24
View Document
UWCHE330Yi FengWinter

CHE330 Quiz: Solution 4.pdf

OC4171283 Page
23
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Thermal Efficiency, Thermal Reservoir, Ideal Gas

OC4171281 Page
40
The gas is compressed reversibly and adiabatically to 10 bar, where the piston is locked in position. The cylinder is then brought into thermal contact
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Vapor-Compression Refrigeration, Flash Evaporation, Carnot Cycle

OC4171281 Page
58
The thermodynamic properties of tetrafluoroethane can be found in the book (table 9. 1 and fig. g. 2). 9. 1 in book) with tetrafluoroethane as the refr
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Ideal Gas, Liquid Hydrogen, Hydrogen Cyanide

OC4171281 Page
40
5: using the data in the steam tables, determine the numerical values for the following: (a) gl and gv for saturated liquid and vapor at 900 kpa. Shoul
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Isentropic Process, Ideal Gas

OC4171281 Page
116
6: nitrogen expands through a nozzle from a negligible initial velocity to a final velocity of 325 m/s. Pay attention to the units of the quantities us
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Rankine Cycle, Thermal Efficiency, Ideal Gas

OC4171281 Page
45
7: consider the basic cycle for a steam power plant. The turbine operates adiabatically with inlet steam at 6500 kpa and 525 c, and the exhaust steam e
View Document
View all (10+)

Trending

Frequently-seen exam questions from 2014 - 2018.
UWECON344Greg TanguaySpring

ECON344 Chapter Notes - Chapter 2: Benefit Corporation, Non-Governmental Organization, Privately Held Company

OC233535040 Page
0
View Document
UWECON344Greg TanguaySpring

ECON344 Chapter Notes - Chapter 1: Market Segmentation, Foodie, Industrial Espionage

OC233535037 Page
0
View Document
UWCS200Barb DalyWinter

CS200 Study Guide - Midterm Guide: Unique Key, Apple Inc., Isaac Asimov

OC4853626 Page
0
View Document
UWCS200Barb DalyWinter

CS200 Study Guide - Midterm Guide: Blackwall Tunnel, Sarcoma

OC4853625 Page
0
Excel: consider the following screenshot of a slightly augmented version of the sort marks workbook discussed. The macros attached to the buttons by id
View Document
UWPLAN105Clarence WoudsmaWinter

PLAN105 Lecture 15: PLAN 450 - short essay question

OC13923731 Page
0
Personally, i ve been one to engage in sharing economy, mostly as a consumer, and thus i find many ways in which one should engage in the sharing econo
View Document
UWENGL213John SmithSpring

ENGL213 Chapter Notes - Chapter 10: Wavefront, Seismic Refraction, Huygens–Fresnel Principle

OC270511911 Page
0
View Document
UWMATH138Jordan HamiltonWinter

MATH138 Quiz: MATH 138 Q8 SOL

OC24899624 Page
0
View Document
UWMATH138Jordan HamiltonWinter

MATH138 Study Guide - Quiz Guide: Qr Code, Absolute Convergence, Ratio Test

OC24899624 Page
0
View Document
UWMATH138Jordan HamiltonWinter

MATH138 Study Guide - Quiz Guide: Qr Code, 3E

OC24899624 Page
0
View Document
UWMATH138Jordan HamiltonWinter

MATH138 Study Guide - Quiz Guide: Qr Code, 3E

OC24899625 Page
0
Note there is only one correct answer for each question: if. P n=j an converges for (a) any j 1, j n. (b) any j r. (c) j = 1 only. (d) none of the abov
View Document
UWCHE330Yi FengWinter

CHE330 Lecture Notes - Lecture 6: Isothermal Process, Ideal Gas, Patent Attorney

OC4171281 Page
73
Second law: a rigid vessel of 0. 06 m3 volume contains an ideal gas, cv = (5/2)r, at 500 k and 1 bar. (a) (b) If heat in the amount of 15,000 j is tran
View Document
View all (1+)
UWCHE330Yi FengWinter

CHE330 Chapter Notes - Chapter 4: Superheated Steam, Gibbs Free Energy, Isentropic Process

OC4171281 Page
64
6. 1 property relations for homogeneous phases; gibbs energy as a generating function. 6. 3&6. 7 residual properties by eos and generalized correlation
View Document
View all (1+)

Most Popular

Your classmates’ favorite documents.
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Isentropic Process, Ideal Gas

OC4171281 Page
116
6: nitrogen expands through a nozzle from a negligible initial velocity to a final velocity of 325 m/s. Pay attention to the units of the quantities us
View Document
UWCHE330Yi FengWinter

CHE330 Lecture Notes - Lecture 6: Isothermal Process, Ideal Gas, Patent Attorney

OC4171281 Page
73
Second law: a rigid vessel of 0. 06 m3 volume contains an ideal gas, cv = (5/2)r, at 500 k and 1 bar. (a) (b) If heat in the amount of 15,000 j is tran
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Vapor-Compression Refrigeration, Flash Evaporation, Carnot Cycle

OC4171281 Page
58
The thermodynamic properties of tetrafluoroethane can be found in the book (table 9. 1 and fig. g. 2). 9. 1 in book) with tetrafluoroethane as the refr
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Thermal Efficiency, Thermal Reservoir, Ideal Gas

OC4171281 Page
40
The gas is compressed reversibly and adiabatically to 10 bar, where the piston is locked in position. The cylinder is then brought into thermal contact
View Document
UWCHE330Yi FengWinter

CHE330 Chapter Notes - Chapter 4: Superheated Steam, Gibbs Free Energy, Isentropic Process

OC4171281 Page
64
6. 1 property relations for homogeneous phases; gibbs energy as a generating function. 6. 3&6. 7 residual properties by eos and generalized correlation
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Ideal Gas, Liquid Hydrogen, Hydrogen Cyanide

OC4171281 Page
40
5: using the data in the steam tables, determine the numerical values for the following: (a) gl and gv for saturated liquid and vapor at 900 kpa. Shoul
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Rankine Cycle, Thermal Efficiency, Ideal Gas

OC4171281 Page
45
7: consider the basic cycle for a steam power plant. The turbine operates adiabatically with inlet steam at 6500 kpa and 525 c, and the exhaust steam e
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Gibbs Free Energy, Compressibility Factor, Fugacity

OC4171281 Page
26
Assume nitrogen and argon are ideal gases with cv = (5/2)r and cv = (3/2)r, respectively: the excess gibbs energy of a binary liquid mixture at t and p
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Equilibrium Constant

OC4171281 Page
38
10: the following reaction reaches equilibrium at 650 c and 1 bar: N2 (g) + c2h2 (g) = 2 hcn (g) The system initially is an equal molar mixture of n2 a
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Ideal Gas, Exhaust Gas

OC4171281 Page
26
The heat capacity of a substance is represented by the following equation: Cp = a + b t + c t2. Show that the error resulting when <cp>h is assumed to
View Document

Most Recent

The latest uploaded documents.
UWCHE330Yi FengWinter

CHE330 Quiz: Solution 6.pdf

OC4171284 Page
35
View Document
UWCHE330Yi FengWinter

CHE330 Quiz: Solution 7.pdf

OC4171285 Page
25
View Document
UWCHE330Yi FengWinter

CHE330 Chapter Notes - Chapter 4: Superheated Steam, Gibbs Free Energy, Isentropic Process

OC4171281 Page
64
6. 1 property relations for homogeneous phases; gibbs energy as a generating function. 6. 3&6. 7 residual properties by eos and generalized correlation
View Document
UWCHE330Yi FengWinter

CHE330 Lecture Notes - Lecture 6: Isothermal Process, Ideal Gas, Patent Attorney

OC4171281 Page
73
Second law: a rigid vessel of 0. 06 m3 volume contains an ideal gas, cv = (5/2)r, at 500 k and 1 bar. (a) (b) If heat in the amount of 15,000 j is tran
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Equilibrium Constant

OC4171281 Page
38
10: the following reaction reaches equilibrium at 650 c and 1 bar: N2 (g) + c2h2 (g) = 2 hcn (g) The system initially is an equal molar mixture of n2 a
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Isentropic Process, Ideal Gas

OC4171281 Page
116
6: nitrogen expands through a nozzle from a negligible initial velocity to a final velocity of 325 m/s. Pay attention to the units of the quantities us
View Document
UWCHE330Yi FengWinter

CHE330 Quiz: Solution 10.pdf

OC4171282 Page
24
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Ideal Gas, Exhaust Gas

OC4171281 Page
26
The heat capacity of a substance is represented by the following equation: Cp = a + b t + c t2. Show that the error resulting when <cp>h is assumed to
View Document
UWCHE330Yi FengWinter

CHE330 Quiz: Solution 5.pdf

OC4171284 Page
18
View Document
UWCHE330Yi FengWinter

CHE330 Study Guide - Quiz Guide: Gibbs Free Energy, Compressibility Factor, Fugacity

OC4171281 Page
26
Assume nitrogen and argon are ideal gases with cv = (5/2)r and cv = (3/2)r, respectively: the excess gibbs energy of a binary liquid mixture at t and p
View Document

All Materials (1,700,000)
CA (930,000)
UW (30,000)
CHE (100)
CHE330 (10)
Yi Feng (10)