Helicopters By: Loren Kanov March 12, 2001 Honors Physics Mr. Pagani Period 6.

Slides:

Advertisements

Similar presentations

Parts of an Aircraft Parts of an Aircraft Gateway To Technology®

Advertisements

How Airplanes work and how has it changed

 A radio controlled aircraft (model) is controlled remotely by a hand held transmitter & receiver within the aircraft.  The.

STATE UNIVERSITY OF NEW YORK INSTITUTE OF TECHNOLOGY AT UTICA/ROME Transportation Camp Christopher Urban Commander, U.S. Navy (retired Navy pilot) SUNYIT.

The Helicopter.

Lesson 12 A Versatile Flying Machine. EH 101 Helicopter.

AEROPLANE Done by, RAKHI M.R. & SINDHU P. RAKHI M.R. & SINDHU P. Standard 10 E G.M.G.H.S.School Pattom, TVM.

6th grade Springton Lake

PREJIN VIJESH RAHMAN SAJEER. Heavier than air aerodynes, including autogyros, helicopters and variants, and conventional fixed-wing aircraft: aeroplanes.

Leading Cadet Training

Uncontrolled copy not subject to amendment

The Fly Higher Tutorial III

Ancient Dreamers Leonardo da Vinci Italian artist and scientist ( ) gathered data on the flight of birds and developed concepts of the propeller,

Lesson 13 Propel me. In a helicopter, you can move in any direction or you can rotate 360 degrees.

PRINCIPLES OF FLIGHT CHAPTER 7 THE HELICOPTER.

AVIATION HISTORY Lecture 3c: Helicopters By Zuliana.

Principles of Flight Chapter 6 – Helicopters. Introduction A helicopter generates both lift and thrust by using its rotor blades rather than wings. Blades.

Commercial Flight, Airmail, and Helicopters. Objective Comprehend the developments in commercial flight Understand the development and use of helicopters.

LIFT MECHANISM OF THE HELICOPTER

Know the principles of flight and control for rotary wing aircraft

LESSON 3 Controlling the Flight.

Pre-Solo Training Program

A transportation that flies. Airplanes!. What is an airplane? An airplane is a fixed wing vehicle that flies through the air. Airplanes can have jet engines.

Fundamentals of Flight

Stability and Flight Controls

LESSON 2 Week 2 Glue fin on Colour the wing Colure the tail Cut out wing Glue front of wing Glue tail on Glue wing on.

Utilizing your notes and past knowledge answer the following questions: 1) What part of the aircraft that is located on the outer portion of the trailing.

Utilizing your notes and past knowledge answer the following questions: 1) What part of the aircraft that is located on the outer portion of the trailing.

Utilizing your notes and past knowledge answer the following questions: 1) What part of the aircraft is located on the outer portion of the trailing edge.

Parts of an Aircraft Parts of an Aircraft Gateway To Technology®

1 How does an aircraft fly?. 2 First of all – An aircraft needs one or more engines to move forward.

Utilizing your notes and past knowledge answer the following questions: 1) What is thrust and how can it be generated? 2) What occurs when the resultant.

School of Aviation Safety

How a helicopter is able to fly

Principles Of Rotary Flight

Flight. Floaters A floater does not really fly but, rather the wind controls the speed and direction of flight. Gliders Gliders have wings that interact.

Principles of Flight Spitfire. Chapter 1 – Weight and Lift How is an aircraft, which is much heavier than the air it flies in, supported by the air? C130.

Propellers. Helicopter Propellers  Helicopters, with their horizontal propeller called a rotor, do not require forward propulsion.  Each of the long,

HELICOPTER By Vinod Kumar K.

Intro To Air Transportation Transportation Systems Mr. Wasacz Transportation Systems Mr. Wasacz.

How does an Airplane Fly? Forces on an Airplane in Flight The four aerodynamic forces that act upon an airplane in flight are lift (the upward.

The Helicopter History The first helicopter was sketched by Leonardo da Vinci in Not until 1909 was a helicopter able to remain in the air for.

Airplanes By : Hebron Yam,Justin Minucci. How do airplane work? Problem???

EAA Young Eagles Saturday Oct 5.

Idea Development TTTTo have a Better Understanding of How Mechanically a Helicopter Flies IIIIntrigue of part design AAAA chance to better.

By Mariam and Jane Contents History How does a heliman work? Logo/Acronym Designs Side/Front view Bibliography Credits.

Grade 5/6 Environmental Science JEOPARDY THIS IS JEOPARDY.

Round and Round They Go. Helicopter helicopter – a plane that gets its lift from a powered rotor.

Physics of Flight.

AVIATION HISTORY WEEK 10 Helicopters.  Introduction  How a helicopter flies  The advantages of Helicopter.

AVIATION HISTORY Helicopters. Introduction  Helicopter is an aircraft than can take- off and land vertically.  Nowadays, they became one of the most.

HISTORY OF TRANSPORT ‘AIRPLANE’.

Chapter 11 Section 4 Bernoulli’s Principle. Pressure and Moving Fluids Fluids move from an area of high pressure to an area of low pressure example drinking.

Uncontrolled copy not subject to amendment Principles of Flight Learning Outcome 4 Know the principles of flight and control for rotary wing aircraft Identify.

Aircraft Auto Pilot Roll Control System

Settling with Power (vortex ring state)

HELICOPTER FLIGHT THEORY. CONTENTS  Historical background  Airfoil theory and propeller action  Configuration of helicopters  Main rotor and design.

Propeller Toy Wow it really flies, indoors and outside! Just move your hands in opposite directions and the lightweight and durable propeller toy flies.

Utilizing your notes and past knowledge answer the following questions: 1) What part of the aircraft is located on the outer portion of the trailing edge.

The Principles of Flight

How Planes and Other Aircrafts Fly

Conestoga Valley High School Aerospace Technology

How Do Helicopters Fly? An Introduction to Rotor Aeromechanics

Warm-Up – 8/24 – 10 minutes Utilizing your notes and past knowledge answer the following questions: What part of the aircraft that is located on the trailing.

Warm-Up – 8/18 – 10 minutes Utilizing your notes and past knowledge answer the following questions: What part of the aircraft that is located on the outer.

Air Training Corps 1011(Amesbury) Squadron Mobiles OFF

Conestoga Valley High School Aerospace Technology

Science of Helicopters

Air, Aerodynamics, and Flight

Presentation transcript:

Helicopters By: Loren Kanov March 12, 2001 Honors Physics Mr. Pagani Period 6

Table of Contents History of Helicopters Significant Contributions Igor I. Sikorsky How it Works How it Maneuvers Resources

History of Helicopters The ancient Chinese had toys that rose upward when spun rapidly. Leonardo Da Vinci made drawings of what we now know as the helicopter. The invention of the internal combustion engine made it possible to develop full-sized models with an adequate power source.

Significant contributions 1907: French pioneer Paul Cornu lifted a twin- rotored helicopter into the air entirely without assistance from the ground for a few seconds. 1924: French pioneer Etienne Oehmichen became the first to fly a helicopter one kilometer in a closed circuit. It took 7 minutes and 40 seconds. 1936: Spaniard Juan de la Cierva created the autogyro which was not a true helicopter, but reached new heights in vertical flight.

Igor I. Sikorsky Designed the world’s first true production helicopter Greatly influenced in contemporary science by his mother and father As a child, he built model aircraft and helicopters Achieved international recognition in 1913 for designing and flying the first multimotor airplane In late 1938, United Aircraft management approved his experimental helicopter and on Sept. 14, 1939, the VS-300 made its first flight His single-rotor design remains the dominant configuration of helicopters today

How it works

How it works Direction: The helicopter has two jet turboshaft engines which turn the rotor blades As the blades sweep through the air, they form what is called the “rotor disc” The rotorhead, which is where the blades are connected, is controlled by a swash plate which transfers the pilot’s instructions to the rotor blades By raising and lowering each blade at a precise point in its revolution, the pilot tilts the rotor disc in the desired direction Control: A cyclic control stick tilts the rotor disc in the desired direction and controls speed The collective pitch lever connects to the swash plate and changes the pitch of the rotor blades in unison, enabling the helicopter to climb or descend Foot pedals connected to the control arms on the tail rotor blades work together with the cyclic control stick to make right or left turns

How it works Lift: The rotor blades are shaped like the wings of an airplane: curved on top and flat on bottom When they rotate, the pressure of the slower-moving air flowing under the blade is greater than the faster-moving air above it This difference in pressure pushes the blades up, giving the helicopter the lift it needs to fly Balance: Without a tail rotor, the body of the helicopter would be forced in the opposite direction of the spinning rotor blades The tail rotor compensates for this by providing lateral thrust in the opposite direction, holding the body stationary

How it maneuvers Changing the angle or tilt of the helicopter’s rotor blades tells the aircraft whether to move forward or backward or to hover motionless in the air. Forward Hover Backward

resources