Thermodynamics Problems And Solutions Pdf

1. Based on graph P-V below, what is the ratio of the work done by the gas in the process I, to the work done by the gas in the process II?

SOLUTIONS THERMODYNAMICS PRACTICE PROBLEMS FOR NON-TECHNICAL MAJORS Thermodynamic Properties 1. If an object has a weight of 10 lbf on the moon, what would the same object weigh on Jupiter? Jupiter 22Moon c ft ft lbm-ft g =75 g =5.4 g =32 sec sec lbf-sec2 c moon cmoon Jupiter Jupiter c mg Wg10×32 W = m = = 59.26 lb gg5.4 mg 59.26×75 W = 139. Reading Problems 3-1 → 3-7 3-49, 3-52, 3-57, 3-70, 3-75, 3-106, 3-9 → 3-11 3-121, 3-123 Pure Substances. a Pure Substance is the most common material model used in thermodynamics. – it has a fixed chemical composition throughout (chemically uniform) – a homogeneous mixture of various chemical elements or compounds can also be con. Contents: thermodynamics. Chapter 01: thermodynamic properties and state of pure substances. Chapter 02: work and heat. Chapter 03: energy and the first law of thermodynamics. Chapter 04: entropy and the second law of thermodynamics. Chapter 05: irreversibility and availability.

Known :

Process 1 :

Pressure (P) = 20 N/m²

Initial volume (V₁) = 10 liter = 10 dm³ = 10 x 10^-3 m³

Final volume (V₂) = 40 liter = 40 dm³ = 40 x 10^-3 m³

Process 2 :

Process (P) = 15 N/m²

Initial volume (V₁) = 20 liter = 20 dm³ = 20 x 10^-3 m³

Final volume (V₂) = 60 liter = 60 dm³ = 60 x 10^-3 m³

Wanted : The ratio of the work done by gas

Solution :

The work done by gas in the process I :

W = P ΔV = P (V₂–V₁) = (20)(40-10)(10^-3 m³) = (20)(30)(10^-3 m³) = (600)(10^-3 m³) = 0.6 m³

The work done by gas in the process II :

W = P ΔV = P (V₂–V₁) = (15)(60-20)(10^-3 m³) = (15)(40)(10^-3 m³) = (600)(10^-3 m³) = 0.6 m³

The ratio of the work done by gas in the process I and the process II :

0.6 m³ : 0.6 m³

1 : 1

2.

Based on the graph below, what is the work done by helium gas in the process AB?

Known :

Pressure (P) = 2 x 10⁵ N/m² = 2 x 10⁵ Pascal

Initial volume (V₁) = 5 cm³ = 5 x 10^-6 m³

Final volume (V₂) = 15 cm³ = 15 x 10^-6 m³

Wanted : Work done by gas in process AB

Solution :

W = ∆P ∆V

W = P (V₂ – V₁)

W = (2 x 10⁵)(15 x 10^-6 – 5 x 10^-6)

W = (2 x 10⁵)(10 x 10^-6) = (2 x 10⁵)(1 x 10^-5)

W = 2 Joule

3.

Based on the graph below, what is the work done in process a-b?

Known :

Windows 7 genuine remover download. Initial pressure (P₁) = 4 Pa = 4 N/m²

Final pressure (P₂) = 6 Pa = 6 N/m²

Initial volume (V₁) = 2 m³

Final volume (V₂) = 4 m³

Wanted : work done I process a-b

Solution :

Work done by gas = area under curve a-b

W = area of triangle + area of rectangle

W = ½ (6-4)(4-2) + 4(4-2)

W = ½ (2)(2) + 4(2)

W = 2 + 8

Heat Transfer Problems And Solutions

W = 10 Joule

4. Based on graph below, what is the work done in process A-B-C-A.

Solution :

Work (W) = Area of the triangle A-B-C

W = ½ (20-10)(6 x 10⁵ – 2 x 10⁵)

W = ½ (10)(4 x 10⁵)

W = (5)(4 x 10⁵

)

W = 20 x 10⁵

W = 2 x 10⁶ Joule/dragon-age-origins-awakening-cd-key-generator.html.

5. An engine absorbs 2000 Joule of heat at a high temperature and exhausted 1200 Joule of heat at a low temperature. What is the efficiency of the engine?

Known :

Heat input (Q_H) = 2000 Joule

Heat output (Q_L) = 1200 Joule

Work done by engine (W) = 2000 – 1200 = 800 Joule

Wanted : efficiency (e)

Solution :

e = W / Q_H

e = 800/2000

e = 0.4 x 100%

e = 40%

6. An engine absorbs heat at 960 Kelvin and the engine discharges heat at 576 Kelvin. What is the efficiency of the engine.

Known :

High temperature (T_H) = 960 K

Low temperature (T_L) = 576 K

Wanted: efficiency (e)

Solution :

Efficiency of Carnot engine = 0.4 x 100% = 40%

7. Based on the graph below, work done by the engine is 6000 Joule. What is the heat discharged by engine each circle?

Known :

Work (W) = 6000 Joule

High temperature (T_H) = 800 Kelvin

Low temperature (T_L) = 300 Kelvin

Wanted: heat discharged by the engine

Solution :

Carnot (ideal) efficiency :

Heat absorbed by Carnot engine :

Thermodynamics 2 Problems And Solutions Pdf

W = e Q₁

6000 = (0.625) Q₁

Q₁ = 6000 / 0.625

Physics Problems And Solutions Pdf

Q₁ = 9600

Heat discharged by Carnot engine :

Thermodynamics Problems And Answers

Q₂ = Q₁ – W

Q₂ = 9600 – 6000

Q₂ = 3600 Joule

8. The efficiency of a Carnot engine is 40%. If heat absorbed at 727°C then what is the low temperature.

Known :

Efficiency (e) = 40% = 40/100 = 0.4

High temperature (T_H) = 727^oC + 273 = 1000 K

Wanted : Low temperature

Solution :

T_L = 600 Kelvin – 273 = 327^oC

9. Based on graph below, if the engine absorbs 800 J of heat, what is the work done by the engine.

Known :

Physics Thermodynamics Problems And Solutions Pdf

High temperature (T_H) = 600 Kelvin

Low temperature (T_L) = 250 Kelvin

Heat input (Q₁) = 800 Joule

Wanted: Work (W)

Solution :

The efficiency of Carnot engine :

Work was done by the engine :

W = e Q₁

W = (7/12)(800 Joule)

W = 466.7 Joule

10. The high temperature of a Carnot engine is 600 K. If the engine absorbs 600 J of heat and the low temperature is 400 K, what is the work done by the engine.

Known :

Low temperature (T_L) = 400 K

High temperature (T_H) = 600 K

Heat input (Q₁) = 600 Joule

Wanted: Work was done by Carnot engine (W)

Solution :

The efficiency of the Carnot engine :

Work was done by Carnot engine :

W = e Q₁

W = (1/3)(600) = 200 Joule