Flight Science covers the topic from the ground up: both the math and science as they relate to the subject of aviation to the topics that affect how an aircraft performs: meteorology, thermodynamics,... Read More
Description
Flight Science covers the topic from the ground up: both the math and science as they relate to the subject of aviation to the topics that affect how an aircraft performs: meteorology, thermodynamics, combustion, drones, mechanics, dynamics, navigation, flight plans, and other general aviation-related guidance. It may be used as a reference and includes examples and case studies with step-by-step solutions. Readers new to the field who are working towards their recreational, private, or commercial licenses or one already flying a single piston or multi-engine aircraft will benefit from the content
Details
- Price: $66.99
- Pages: 500
- Carton Quantity: 12
- Publisher: De Gruyter
- Imprint: Mercury Learning and Information
- Publication Date: 25th March 2019
- Illustration Note: figures & tables
- ISBN: 9781683922155
- Format: Hardcover
- BISACs:
TRANSPORTATION / Aviation / Piloting & Flight Instruction
MATHEMATICS / General
MATHEMATICS / Applied
SCIENCE / Physics / Mathematical & Computational
TECHNOLOGY & ENGINEERING / General
TECHNOLOGY & ENGINEERING / Aeronautics & Astronautics
TRANSPORTATION / Aviation / Repair & Maintenance
Author Bio
Table of Contents
1: Connection between Aeronautics and Thermo-Fluid Sciences
2: Meteorology
3: Climate and Atmospheric Thermodynamics
4: Thermodynamics of Air
5: Dynamics of Air and Forces
6: Piston Engine and Combustion Process
7: Unmanned Flying Objects
8: Performance Charts
9: Navigation
10: Flight Plan
11: Special Scenarios
12: Converting a Piston Engine Aircraft to a Turboprop Aircraft
13: Upper Airwork
14: Good Practices and Lean Six Sigma Implementation
15: Conclusion
Appendices
Bibliography
Index
2: Meteorology
3: Climate and Atmospheric Thermodynamics
4: Thermodynamics of Air
5: Dynamics of Air and Forces
6: Piston Engine and Combustion Process
7: Unmanned Flying Objects
8: Performance Charts
9: Navigation
10: Flight Plan
11: Special Scenarios
12: Converting a Piston Engine Aircraft to a Turboprop Aircraft
13: Upper Airwork
14: Good Practices and Lean Six Sigma Implementation
15: Conclusion
Appendices
Bibliography
Index
Flight Science covers the topic from the ground up: both the math and science as they relate to the subject of aviation to the topics that affect how an aircraft performs: meteorology, thermodynamics, combustion, drones, mechanics, dynamics, navigation, flight plans, and other general aviation-related guidance. It may be used as a reference and includes examples and case studies with step-by-step solutions. Readers new to the field who are working towards their recreational, private, or commercial licenses or one already flying a single piston or multi-engine aircraft will benefit from the content
- Price: $66.99
- Pages: 500
- Carton Quantity: 12
- Publisher: De Gruyter
- Imprint: Mercury Learning and Information
- Publication Date: 25th March 2019
- Illustrations Note: figures & tables
- ISBN: 9781683922155
- Format: Hardcover
- BISACs:
TRANSPORTATION / Aviation / Piloting & Flight Instruction
MATHEMATICS / General
MATHEMATICS / Applied
SCIENCE / Physics / Mathematical & Computational
TECHNOLOGY & ENGINEERING / General
TECHNOLOGY & ENGINEERING / Aeronautics & Astronautics
TRANSPORTATION / Aviation / Repair & Maintenance
1: Connection between Aeronautics and Thermo-Fluid Sciences
2: Meteorology
3: Climate and Atmospheric Thermodynamics
4: Thermodynamics of Air
5: Dynamics of Air and Forces
6: Piston Engine and Combustion Process
7: Unmanned Flying Objects
8: Performance Charts
9: Navigation
10: Flight Plan
11: Special Scenarios
12: Converting a Piston Engine Aircraft to a Turboprop Aircraft
13: Upper Airwork
14: Good Practices and Lean Six Sigma Implementation
15: Conclusion
Appendices
Bibliography
Index
2: Meteorology
3: Climate and Atmospheric Thermodynamics
4: Thermodynamics of Air
5: Dynamics of Air and Forces
6: Piston Engine and Combustion Process
7: Unmanned Flying Objects
8: Performance Charts
9: Navigation
10: Flight Plan
11: Special Scenarios
12: Converting a Piston Engine Aircraft to a Turboprop Aircraft
13: Upper Airwork
14: Good Practices and Lean Six Sigma Implementation
15: Conclusion
Appendices
Bibliography
Index
