Chapter 17 Steady Heat Conduction
Chapter 17 STEADY HEAT CONDUCTION
Steady Heat Conduction In Plane Walls 17-1C (a) If the lateral surfaces of the rod are insulated, the heat transfer surface area of the cylindrical rod is the bottom or the top surf
Chapter 11 Fluid Statics
Chapter 11 FLUID STATICS
Fluid Statics: Hydrostatic Forces on Plane and Curved Surfaces 11-1C The resultant hydrostatic force acting on a submerged surface is the resultant of the pressure forces acting on the surface. The p
Chapter 1 Introduction and Overview
Chapter 1 INTRODUCTION AND OVERVIEW
Thermodynamics, Heat Transfer, and Fluid Mechanics 1-1C Classical thermodynamics is based on experimental observations whereas statistical thermodynamics is based on the average
Chapter 1
Thermodynamics-Therme Dynamis- heat power
Conservation of Energy Principle: energy cannot be created or destroyed, change in
energy is equal to the difference between the energy input and energy output
(Ein-Eout=E).
Energy is thermodynamic prope
Chapter 8 Power and Refrigeration Cycles
Chapter 8 POWER AND REFRIGERATION CYCLES
Actual and Ideal Cycles, Carnot cycle, Air-Standard Assumptions 8-1C The Carnot cycle is not suitable as an ideal cycle for all power producing devices because it cann
Chapter 6 The Second Law of Thermodynamics
Chapter 6 THE SECOND LAW OF THERMODYNAMICS
The Second Law of Thermodynamics and Thermal Energy Reservoirs 6-1C Water is not a fuel; thus the claim is false. 6-2C Transferring 5 kWh of heat to an electric re
Chapter 22 Radiation Heat Transfer
Chapter 22 RADIATION HEAT TRANSFER
View Factors
22-1C The view factor Fi j represents the fraction of the radiation leaving surface i that strikes surface j directly. The view factor from a surface to itself is n
Chapter 20 Natural Convection
Chapter 20 NATURAL CONVECTION
Physical Mechanisms of Natural Convection 20-1C Natural convection is the mode of heat transfer that occurs between a solid and a fluid which moves under the influence of natural means. Nat
Chapter 19 Forced Convection
Chapter 19 FORCED CONVECTION
Physical Mechanism of Convection 19-1C In forced convection, the fluid is forced to flow over a surface or in a tube by external means such as a pump or a fan. In natural convection, any flui
Chapter 16 Mechanisms of Heat Transfer
Chapter 16 MECHANISMS OF HEAT TRANSFER
Heat Transfer Mechanisms 16-1C The house with the lower rate of heat transfer through the walls will be more energy efficient. Heat conduction is proportional to thermal c
Chapter 15 Flow Over Bodies: Drag and Lift
Chapter 15 FLOW OVER BODIES: DRAG AND LIFT
Drag, Lift, and Drag Coefficients of Common Geometries 15-1C The flow over a body is said to be two-dimensional when the body is too long and of constant crosssect
Chapter 14 Flow in Pipes
Chapter 14 FLOW IN PIPES
Laminar and Turbulent Flow 14-1C Liquids are usually transported in circular pipes because pipes with a circular cross-section can withstand large pressure differences between the inside and the outs
Chapter 13 MOMENTUM ANALYSIS OF FLOW SYSTEMS
Newton's Laws and Conservation of Momentum 13-1C Mass, energy, momentum, and electric charge are conserved, and volume and entropy are not conserved during a process. 13-2C Newton's first law states that "
Chapter 9 Gas Mixtures and Psychometrics
Chapter 9 GAS MIXTURES AND PSYCHROMETRICS
Composition of Gas Mixtures 9-1C It is the average or the equivalent gas constant of the gas mixture. No. 9-2C No. We can do this only when each gas has the same mole
Chapter 4 Energy Transfer by Heat, Work, and Mass
Chapter 4 ENERGY TRANSFER BY HEAT, WORK, AND MASS
Heat Transfer and Work 4-1C Energy can cross the boundaries of a closed system in two forms: heat and work. 4-2C The form of energy that crosses the
Summer 2011
Exam 1
)
instructor: Naveenan Thiagarajan
Name: 1
lI1
ENGR 2200
Introduction to Thermodynamics, Fluids and Heat Transfer
z2s
Exam 1 Part A (25 points)
(Closed book; Closed notes.)
June 23, 2011.
_._
1) Classify the following properties as eith