Introduction to Aircraft. It describes the history and main parts of Aircraft. It explains the scientific principle behind flying. From origin of aircraft to current state of aviation technology.
The document summarizes the history of airplanes, beginning with the Wright brothers' invention of the first successful airplane in 1903. It describes some early attempts at flight prior to the Wright brothers, including by Archytas in 400 BC and the monk Eilmer of Malmesbury in the 11th century. It then provides definitions and descriptions of key parts of modern airplanes, including the cockpit, wings, flaps, and spoilers.
Wright brothers invented the first successful airplane in 1903. Their first flight flew for 12 seconds and flew 120 feet in distance. The four main forces acting on an airplane are thrust, drag, lift, and weight. Thrust and lift must exceed or equal drag and weight respectively for an airplane to achieve stable flight. There are different types of aircrafts including passenger aircrafts, transport aircrafts, individual aircrafts, and aircrafts for defensive purposes.
This document summarizes different ways that aircraft are classified and provides examples. Aircraft can be classified by their design as either lighter-than-air (balloons, blimps) or heavier-than-air (airplanes, helicopters). They can also be classified by their propulsion, such as piston engines, turbines, or rockets. Finally, aircraft are classified by their use, with examples being military aircraft like fighters or bombers and civilian aircraft like airliners or private planes. Emerging aircraft designs and alternative fuels are discussed as part of the future of aviation.
An aircraft is a machine that gains lift from the air and counters gravity, most often using wings but sometimes jet engines. The Wright brothers' 1903 Wright Flyer was the first successful powered aircraft. Different types of aircraft include gliders, jet airliners, and military planes like the Ilyushin Il-2, which was the most produced military aircraft. The most produced civilian aircraft is the Cessna 172 single-engine plane, while the Boeing 737 twinjet is the most produced commercial airliner.
HEAVY DUTY AIR TRANSPORT VEHICLE (HDATV)vivatechijri
There are various technologies emerging from Aeronautics and Aerospace fields which results into
different problems being solved yet there are some which will be very beneficiary in near future for military as
well as for civil purpose. We as students are working on a problem which will benefit in our near future. In our
project we are designing an electric propelled HDATV (heavy duty air transport vehicle) which utilizes VTOL
technology. The aircraft which we are designing consists of fuselage with two nacelles at the end of high placed
fixed wing and two horizontal stabilizers and a vertical stabilizer along with it. The fuselage and the nacelles are
lifting bodies that are configured to jointly form an aerodynamic lifting body which cooperates with the horizontal
stabilizer to provide aerodynamic lift to the aircraft in forward flight. The nacelles houses two propellers which
are highly pitched and powered by the BLDC Motors operating in counter-rotating directions. The nacelles will
be designed to perform tilting operation in the direction of flight whenever necessary. The aircraft will be
unmanned and controlled via radio controller. The main aim of our project is to demonstrate the use of electric
VTOL technology and to perform basic tasks like avoiding obstacles, to carry loads and to perform some air
manoeuvres.
This document provides an overview of aircraft wings, including their:
- Historical development from ancient kites to the Wright brothers' fixed-wing aircraft.
- Construction, with internal structures like ribs, spars, stringers, and skin covering the framework. Wings also contain fuel tanks, flaps, and other devices.
- Functions, as wings generate lift through Bernoulli's principle and critical angle of attack. Wing design factors like aspect ratio and camber also affect lift.
- Types based on position (fixed or movable) and structure (cantilever or strut-braced). Stability devices like ailerons and flaps are also described.
- Unconventional designs that
Aviation comes from the Latin avis meaning "bird," an appropriate translation given that aviation deals with travel by air, specifically in a plane. The aviation industry is the business sector dedicated to manufacturing and operating all types of aircraft.
Fixed wing Aircraft and area of their application.pptxEliyasZekaryas
The document discusses different types of fixed-wing aircraft and their applications. It begins by defining fixed-wing aircraft and their history, including the Wright Brothers' first flight. It then describes various wing configurations like monoplanes, biplanes, and triplanes. Next, it covers common fixed-wing aircraft characteristics and differentiates applications like commercial airliners, military craft, general aviation, business jets, and more specialized aircraft. In closing, it notes some classifications may overlap depending on an aircraft's capabilities and design features.
The document summarizes the history of airplanes, beginning with the Wright brothers' invention of the first successful airplane in 1903. It describes some early attempts at flight prior to the Wright brothers, including by Archytas in 400 BC and the monk Eilmer of Malmesbury in the 11th century. It then provides definitions and descriptions of key parts of modern airplanes, including the cockpit, wings, flaps, and spoilers.
Wright brothers invented the first successful airplane in 1903. Their first flight flew for 12 seconds and flew 120 feet in distance. The four main forces acting on an airplane are thrust, drag, lift, and weight. Thrust and lift must exceed or equal drag and weight respectively for an airplane to achieve stable flight. There are different types of aircrafts including passenger aircrafts, transport aircrafts, individual aircrafts, and aircrafts for defensive purposes.
This document summarizes different ways that aircraft are classified and provides examples. Aircraft can be classified by their design as either lighter-than-air (balloons, blimps) or heavier-than-air (airplanes, helicopters). They can also be classified by their propulsion, such as piston engines, turbines, or rockets. Finally, aircraft are classified by their use, with examples being military aircraft like fighters or bombers and civilian aircraft like airliners or private planes. Emerging aircraft designs and alternative fuels are discussed as part of the future of aviation.
An aircraft is a machine that gains lift from the air and counters gravity, most often using wings but sometimes jet engines. The Wright brothers' 1903 Wright Flyer was the first successful powered aircraft. Different types of aircraft include gliders, jet airliners, and military planes like the Ilyushin Il-2, which was the most produced military aircraft. The most produced civilian aircraft is the Cessna 172 single-engine plane, while the Boeing 737 twinjet is the most produced commercial airliner.
HEAVY DUTY AIR TRANSPORT VEHICLE (HDATV)vivatechijri
There are various technologies emerging from Aeronautics and Aerospace fields which results into
different problems being solved yet there are some which will be very beneficiary in near future for military as
well as for civil purpose. We as students are working on a problem which will benefit in our near future. In our
project we are designing an electric propelled HDATV (heavy duty air transport vehicle) which utilizes VTOL
technology. The aircraft which we are designing consists of fuselage with two nacelles at the end of high placed
fixed wing and two horizontal stabilizers and a vertical stabilizer along with it. The fuselage and the nacelles are
lifting bodies that are configured to jointly form an aerodynamic lifting body which cooperates with the horizontal
stabilizer to provide aerodynamic lift to the aircraft in forward flight. The nacelles houses two propellers which
are highly pitched and powered by the BLDC Motors operating in counter-rotating directions. The nacelles will
be designed to perform tilting operation in the direction of flight whenever necessary. The aircraft will be
unmanned and controlled via radio controller. The main aim of our project is to demonstrate the use of electric
VTOL technology and to perform basic tasks like avoiding obstacles, to carry loads and to perform some air
manoeuvres.
This document provides an overview of aircraft wings, including their:
- Historical development from ancient kites to the Wright brothers' fixed-wing aircraft.
- Construction, with internal structures like ribs, spars, stringers, and skin covering the framework. Wings also contain fuel tanks, flaps, and other devices.
- Functions, as wings generate lift through Bernoulli's principle and critical angle of attack. Wing design factors like aspect ratio and camber also affect lift.
- Types based on position (fixed or movable) and structure (cantilever or strut-braced). Stability devices like ailerons and flaps are also described.
- Unconventional designs that
Aviation comes from the Latin avis meaning "bird," an appropriate translation given that aviation deals with travel by air, specifically in a plane. The aviation industry is the business sector dedicated to manufacturing and operating all types of aircraft.
Fixed wing Aircraft and area of their application.pptxEliyasZekaryas
The document discusses different types of fixed-wing aircraft and their applications. It begins by defining fixed-wing aircraft and their history, including the Wright Brothers' first flight. It then describes various wing configurations like monoplanes, biplanes, and triplanes. Next, it covers common fixed-wing aircraft characteristics and differentiates applications like commercial airliners, military craft, general aviation, business jets, and more specialized aircraft. In closing, it notes some classifications may overlap depending on an aircraft's capabilities and design features.
The document discusses the key components and purpose of an aircraft's black box recorder system. It explains that commercial aircraft are required to have a cockpit voice recorder and flight data recorder, commonly referred to together as the black box. These recorders are vital for investigating crashes as they can provide information on what happened before impact. The cockpit voice recorder specifically records audio from the cockpit to help determine things like engine sounds, crew communication, and the timing of events. Both recorders are designed to withstand high heat and pressure and contain underwater locator beacons to help with recovery from crashes at sea.
This document provides information about airport engineering and components of aircraft. It discusses key aspects of airport layout including runways, terminal buildings, taxiways, and control towers. It also covers aircraft characteristics such as type of propulsion, size, minimum turning radius, speed, and landing/takeoff distances. Different types of aircraft are described along with their engine types. The core components of an airplane like wings, fuselage, propeller, and controls are explained. Finally, it discusses the development of air transportation globally and in India.
The first autopilot was developed in 1912 by Sperry Corporation. It connected gyroscopic instruments to aircraft controls, allowing planes to fly straight and level without constant pilot input. In 1914, Lawrence Sperry demonstrated the autopilot by flying with his hands away from the controls. Autopilots greatly reduced pilot workload on long flights and helped enable transoceanic flights. Modern autopilots are computer controlled and can fly planes through all phases of flight except taxiing, with some able to perform automatic landings. They integrate with inertial guidance and radio navigation to fly precision routes while minimizing errors over long durations.
Airport planning and design encompasses constructing terminals, runways, and navigation aids to accommodate passenger and freight air travel. Airport engineers must account for aircraft impacts and demands in their facility designs. They use wind analysis to determine runway orientation and safety areas, and ensure adequate wingtip clearances and safety zones. Proper airport design facilitates smooth aircraft takeoffs and landings while safely accommodating passenger and cargo movement.
The document discusses how airplanes have changed the world by allowing for faster travel over long distances. It provides background on the invention of the airplane by the Wright Brothers in 1903, when their aircraft flew 120 feet in 12 seconds on the first successful flight. It then explains basic concepts like how airplane wings generate lift through airflow and how airplanes helped reduce travel time significantly compared to ships.
This document discusses vertical take-off and landing (VTOL) aircraft. It defines VTOL aircraft as those that can hover, take off, and land vertically without needing a runway. There are two main types of VTOL technology: rotorcraft and powered lift. Rotorcraft use rotating blades like helicopters to generate lift, while powered lift vehicles direct thrust downward for vertical flight. Examples of different VTOL aircraft are provided like helicopters, tiltrotors, tiltwings and tail-sitters. Advantages of VTOL include removing the need for runways and making air travel safer. The document concludes that while VTOL aircraft are not yet economical, they may have an important role in future aviation.
The document provides an overview of a student presentation on drone technology and its applications. It discusses the history of drones, different types of drones, their various uses such as in agriculture, emergency rescue, and delivery, as well as the key technical components including frames, motors, batteries, and flight controllers. The presentation covers the advantages of drones including their ability to surpass traffic and be used in dangerous environments, as well as some disadvantages such as issues with weather, privacy concerns, and limited battery power.
1. introduction to aerospace engineering - Copy.pptxSabinAdhikari25
This document provides an introduction to aerospace engineering. It discusses the differences between aeronautics and aerospace/aviation, describes early attempts at flight including Leonardo da Vinci's studies and the Wright Brothers' first powered flight in 1903. It then summarizes major developments like hot air balloons, gliders, World Wars I and II, the jet age, and space flight that advanced the field of aerospace engineering throughout history.
Airplanes are fixed-wing aircraft that are propelled forward by thrust from jet engines or propellers. They come in various sizes and wing configurations and are used for transportation, recreation, military, and research purposes. Commercial aviation involves tens of thousands of passengers flying daily on large airliners. While early concepts of flight date back centuries, the Wright brothers' 1903 flight is recognized as the first sustained, controlled, powered flight. Jet engines were introduced in the mid-20th century, providing more power than propeller engines. Modern airplanes are complex machines built by companies and can take years to design with safety testing.
This document provides a timeline of important events and developments in aviation history from 1903 to the late 1930s. It describes early aircraft designs like monoplanes, biplanes, and triplanes. Key events included the Wright Brothers' first flight in 1903, the development of seaplanes and amphibious aircraft, and Louis Bleriot becoming the first to fly across the English Channel in 1909. The timeline also discusses the rise of military aviation during World War 1 and the establishment of the first commercial airmail and passenger services in the 1910s and 1920s. Charles Lindbergh's historic first solo transatlantic flight from New York to Paris in 1927 is summarized. The development of modern airliners like the Boeing 247
Skyworks is developing gyroplane and gyrodyne technology that uses sustained autorotative flight, allowing for vertical takeoff and landing without needing runways. Their aircraft have fewer moving parts than helicopters, making them simpler, safer, and more reliable. Skyworks' technology could disrupt transportation by enabling aircraft to operate from more locations like city centers, farmers' fields, and smaller airports.
Airport Hangars And Aircraft Maintenance OperationsMichael Bseliss
This document is a report submitted by a student named Michael Bseliss for their Bachelor of Technology degree in Aerospace Engineering. It discusses the history of airport hangars and different types of hangars used for aircraft maintenance and storage. It also covers various aircraft maintenance operations that take place in airport hangars and maintenance facilities. The report includes sections on the history of hangars, common hangar types like tee hangars and bessonneau hangars, and aircraft maintenance checks and maintenance, repair and overhaul operations. Diagrams and specifications of notable hangars are provided.
The document summarizes the history and development of aircraft from ancient times to the present. It describes early concepts and designs from ancient India, Leonardo da Vinci, and the 18th century. It then discusses key milestones and aircraft from the Wright Brothers' first flight in 1903 to modern jet airliners and military planes. The document also provides an overview of major aircraft manufacturers and the projected growth of the Asian aviation market, particularly in China, through 2030.
Interesting private jet and helicopter statisticsclaire_murray
Below are key facts about private jets and helicopters:
Cessna has delivered nearly 200,000 aircraft over 85 years and the Citation X is the fastest civil aircraft in the world at over 700 mph. Helicopters have saved over 3 million lives since 1944 and the largest helicopter is the Russian Mi-12 with a wingspan almost the size of a Boeing 747. Private aircraft offer more accessibility than commercial airlines, with over 5,000 general aviation airports in the US compared to under 500 commercial airports.
(How it Works) Book of Aircraft - 2nd edDraganGrcak
The document provides an overview of various iconic aircraft throughout history, from the Wright Flyer, the first successful heavier-than-air aircraft, to modern aircraft like the Boeing 747 and the Northrop Grumman B-2 Spirit stealth bomber. It discusses key details and statistics about each aircraft, highlighting their significance and role in advancing aviation technology and history.
This document describes a student project to build a mechanical flying bird. It includes an introduction describing ornithopters and the history of attempts to build flapping wing aircraft. It then outlines the principles and mechanism of how a mechanical bird would work using a crankshaft mechanism to flap the wings. The document details the process used to build the mechanical bird using materials like straw, paper, and rubber bands. It concludes by noting what was learned from the project and lists references used.
10 Most Famous Aircraft in the World - By Nelson LewisNelson Lewis
Since the Wright Brothers first flew in 1903, countless planes have graced the skies of the earth. Yet what are the best ones? I recently came across an article that features 10 of the most famous aircraft, listed here:
Leonardo da Vinci designed the first helicopter-like aircraft in the 15th century, though it was never built. The first practical helicopter was built in the early 1900s by French brothers, with the first mass-produced helicopter flown in 1944 by American Igor Sikorsky. Helicopters generate lift through main rotor blades that function like airplane wings when spun, with a swash plate and pilot controls allowing for movement in any direction. The cyclic, collective, and pedals control the swash plate and rotor blade pitch to move the helicopter forward, up/down, and rotate left/right.
The document discusses the key components and purpose of an aircraft's black box recorder system. It explains that commercial aircraft are required to have a cockpit voice recorder and flight data recorder, commonly referred to together as the black box. These recorders are vital for investigating crashes as they can provide information on what happened before impact. The cockpit voice recorder specifically records audio from the cockpit to help determine things like engine sounds, crew communication, and the timing of events. Both recorders are designed to withstand high heat and pressure and contain underwater locator beacons to help with recovery from crashes at sea.
This document provides information about airport engineering and components of aircraft. It discusses key aspects of airport layout including runways, terminal buildings, taxiways, and control towers. It also covers aircraft characteristics such as type of propulsion, size, minimum turning radius, speed, and landing/takeoff distances. Different types of aircraft are described along with their engine types. The core components of an airplane like wings, fuselage, propeller, and controls are explained. Finally, it discusses the development of air transportation globally and in India.
The first autopilot was developed in 1912 by Sperry Corporation. It connected gyroscopic instruments to aircraft controls, allowing planes to fly straight and level without constant pilot input. In 1914, Lawrence Sperry demonstrated the autopilot by flying with his hands away from the controls. Autopilots greatly reduced pilot workload on long flights and helped enable transoceanic flights. Modern autopilots are computer controlled and can fly planes through all phases of flight except taxiing, with some able to perform automatic landings. They integrate with inertial guidance and radio navigation to fly precision routes while minimizing errors over long durations.
Airport planning and design encompasses constructing terminals, runways, and navigation aids to accommodate passenger and freight air travel. Airport engineers must account for aircraft impacts and demands in their facility designs. They use wind analysis to determine runway orientation and safety areas, and ensure adequate wingtip clearances and safety zones. Proper airport design facilitates smooth aircraft takeoffs and landings while safely accommodating passenger and cargo movement.
The document discusses how airplanes have changed the world by allowing for faster travel over long distances. It provides background on the invention of the airplane by the Wright Brothers in 1903, when their aircraft flew 120 feet in 12 seconds on the first successful flight. It then explains basic concepts like how airplane wings generate lift through airflow and how airplanes helped reduce travel time significantly compared to ships.
This document discusses vertical take-off and landing (VTOL) aircraft. It defines VTOL aircraft as those that can hover, take off, and land vertically without needing a runway. There are two main types of VTOL technology: rotorcraft and powered lift. Rotorcraft use rotating blades like helicopters to generate lift, while powered lift vehicles direct thrust downward for vertical flight. Examples of different VTOL aircraft are provided like helicopters, tiltrotors, tiltwings and tail-sitters. Advantages of VTOL include removing the need for runways and making air travel safer. The document concludes that while VTOL aircraft are not yet economical, they may have an important role in future aviation.
The document provides an overview of a student presentation on drone technology and its applications. It discusses the history of drones, different types of drones, their various uses such as in agriculture, emergency rescue, and delivery, as well as the key technical components including frames, motors, batteries, and flight controllers. The presentation covers the advantages of drones including their ability to surpass traffic and be used in dangerous environments, as well as some disadvantages such as issues with weather, privacy concerns, and limited battery power.
1. introduction to aerospace engineering - Copy.pptxSabinAdhikari25
This document provides an introduction to aerospace engineering. It discusses the differences between aeronautics and aerospace/aviation, describes early attempts at flight including Leonardo da Vinci's studies and the Wright Brothers' first powered flight in 1903. It then summarizes major developments like hot air balloons, gliders, World Wars I and II, the jet age, and space flight that advanced the field of aerospace engineering throughout history.
Airplanes are fixed-wing aircraft that are propelled forward by thrust from jet engines or propellers. They come in various sizes and wing configurations and are used for transportation, recreation, military, and research purposes. Commercial aviation involves tens of thousands of passengers flying daily on large airliners. While early concepts of flight date back centuries, the Wright brothers' 1903 flight is recognized as the first sustained, controlled, powered flight. Jet engines were introduced in the mid-20th century, providing more power than propeller engines. Modern airplanes are complex machines built by companies and can take years to design with safety testing.
This document provides a timeline of important events and developments in aviation history from 1903 to the late 1930s. It describes early aircraft designs like monoplanes, biplanes, and triplanes. Key events included the Wright Brothers' first flight in 1903, the development of seaplanes and amphibious aircraft, and Louis Bleriot becoming the first to fly across the English Channel in 1909. The timeline also discusses the rise of military aviation during World War 1 and the establishment of the first commercial airmail and passenger services in the 1910s and 1920s. Charles Lindbergh's historic first solo transatlantic flight from New York to Paris in 1927 is summarized. The development of modern airliners like the Boeing 247
Skyworks is developing gyroplane and gyrodyne technology that uses sustained autorotative flight, allowing for vertical takeoff and landing without needing runways. Their aircraft have fewer moving parts than helicopters, making them simpler, safer, and more reliable. Skyworks' technology could disrupt transportation by enabling aircraft to operate from more locations like city centers, farmers' fields, and smaller airports.
Airport Hangars And Aircraft Maintenance OperationsMichael Bseliss
This document is a report submitted by a student named Michael Bseliss for their Bachelor of Technology degree in Aerospace Engineering. It discusses the history of airport hangars and different types of hangars used for aircraft maintenance and storage. It also covers various aircraft maintenance operations that take place in airport hangars and maintenance facilities. The report includes sections on the history of hangars, common hangar types like tee hangars and bessonneau hangars, and aircraft maintenance checks and maintenance, repair and overhaul operations. Diagrams and specifications of notable hangars are provided.
The document summarizes the history and development of aircraft from ancient times to the present. It describes early concepts and designs from ancient India, Leonardo da Vinci, and the 18th century. It then discusses key milestones and aircraft from the Wright Brothers' first flight in 1903 to modern jet airliners and military planes. The document also provides an overview of major aircraft manufacturers and the projected growth of the Asian aviation market, particularly in China, through 2030.
Interesting private jet and helicopter statisticsclaire_murray
Below are key facts about private jets and helicopters:
Cessna has delivered nearly 200,000 aircraft over 85 years and the Citation X is the fastest civil aircraft in the world at over 700 mph. Helicopters have saved over 3 million lives since 1944 and the largest helicopter is the Russian Mi-12 with a wingspan almost the size of a Boeing 747. Private aircraft offer more accessibility than commercial airlines, with over 5,000 general aviation airports in the US compared to under 500 commercial airports.
(How it Works) Book of Aircraft - 2nd edDraganGrcak
The document provides an overview of various iconic aircraft throughout history, from the Wright Flyer, the first successful heavier-than-air aircraft, to modern aircraft like the Boeing 747 and the Northrop Grumman B-2 Spirit stealth bomber. It discusses key details and statistics about each aircraft, highlighting their significance and role in advancing aviation technology and history.
This document describes a student project to build a mechanical flying bird. It includes an introduction describing ornithopters and the history of attempts to build flapping wing aircraft. It then outlines the principles and mechanism of how a mechanical bird would work using a crankshaft mechanism to flap the wings. The document details the process used to build the mechanical bird using materials like straw, paper, and rubber bands. It concludes by noting what was learned from the project and lists references used.
10 Most Famous Aircraft in the World - By Nelson LewisNelson Lewis
Since the Wright Brothers first flew in 1903, countless planes have graced the skies of the earth. Yet what are the best ones? I recently came across an article that features 10 of the most famous aircraft, listed here:
Leonardo da Vinci designed the first helicopter-like aircraft in the 15th century, though it was never built. The first practical helicopter was built in the early 1900s by French brothers, with the first mass-produced helicopter flown in 1944 by American Igor Sikorsky. Helicopters generate lift through main rotor blades that function like airplane wings when spun, with a swash plate and pilot controls allowing for movement in any direction. The cyclic, collective, and pedals control the swash plate and rotor blade pitch to move the helicopter forward, up/down, and rotate left/right.
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Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
"Learn about all the ways Walmart supports nonprofit organizations.
You will hear from Liz Willett, the Head of Nonprofits, and hear about what Walmart is doing to help nonprofits, including Walmart Business and Spark Good. Walmart Business+ is a new offer for nonprofits that offers discounts and also streamlines nonprofits order and expense tracking, saving time and money.
The webinar may also give some examples on how nonprofits can best leverage Walmart Business+.
The event will cover the following::
Walmart Business + (https://business.walmart.com/plus) is a new shopping experience for nonprofits, schools, and local business customers that connects an exclusive online shopping experience to stores. Benefits include free delivery and shipping, a 'Spend Analytics” feature, special discounts, deals and tax-exempt shopping.
Special TechSoup offer for a free 180 days membership, and up to $150 in discounts on eligible orders.
Spark Good (walmart.com/sparkgood) is a charitable platform that enables nonprofits to receive donations directly from customers and associates.
Answers about how you can do more with Walmart!"
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
A review of the growth of the Israel Genealogy Research Association Database Collection for the last 12 months. Our collection is now passed the 3 million mark and still growing. See which archives have contributed the most. See the different types of records we have, and which years have had records added. You can also see what we have for the future.
How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
How to Make a Field Mandatory in Odoo 17Celine George
In Odoo, making a field required can be done through both Python code and XML views. When you set the required attribute to True in Python code, it makes the field required across all views where it's used. Conversely, when you set the required attribute in XML views, it makes the field required only in the context of that particular view.
Leveraging Generative AI to Drive Nonprofit InnovationTechSoup
In this webinar, participants learned how to utilize Generative AI to streamline operations and elevate member engagement. Amazon Web Service experts provided a customer specific use cases and dived into low/no-code tools that are quick and easy to deploy through Amazon Web Service (AWS.)
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
11. HISTORY OF AVIATION
11
Heavy manufacturing
during First World War
France produced over
68000 aeroplanes
From wooden body to
metallic body
Junkers J1
15. MAIN SECTIONS OF AIRCRAFT
15
Fuselage
Wings
Cockpit
Engine
Tail Assembly or Tail Unit
Landing Gear or Undercarriage
16. MAIN SECTIONS OF AIRCRAFT
• The fuselage is the main section, or body, of the airplane. This
is where you’ll find passengers, cargo, and the flight crew. The
fuselage is the foundation for the structure of the aircraft.
16
17. MAIN SECTIONS OF AIRCRAFT
• The wings of an aircraft serve the same purpose as the wings of
a bird, hence their name.
• Fixed-Wing & Rotary-Wing
• Wings include ailerons and flaps.
• High wing aircraft
• Low wing aircraft
17
18. MAIN SECTIONS OF AIRCRAFT
• This is where the pilot
controls the aircraft.
• The cockpit includes flight
instruments, avionics,
audio/radio communications,
and flight controls.
18
19. MAIN SECTIONS OF AIRCRAFT
• An aircraft engine is the power
source for a plane.
• Provides Thrust.
• Some drones, or unmanned
aerial vehicles (UAVs), have
used electric motors.
19
20. MAIN SECTIONS OF AIRCRAFT
• Located at the rear of an
airplane.
• It provides stability during flight.
like feathers on an arrow.
• The tail assembly consists of the
vertical stabilizer, rudder,
elevator, horizontal stabilizer,
and static wicks.
20
21. MAIN SECTIONS OF AIRCRAFT
• Landing gear or undercarriage
allows the plane to take off,
land, and taxi without damage.
21