Section 03 - Altimetry Lesson 08

Slides:

Advertisements

Similar presentations

Chapter 8 Air pressure and winds.

Advertisements

Pressure Instruments Chapter 13.

Atmospheric Pressure and Density

Fundamentals of Nav ATC Chapter 1.

Chapter 6: Air Pressure and Winds

Class #5: Air pressure and winds Chapter 8 1Class #5 Tuesday, July 13, 2010.

Lecture 3: Take-off Performance

1 Chapter 6 The States of Matter 6.6 The Gas Laws.

Part 6. Altimetry. Part 6. Altimetry TOPICS Pressure, Humidity & Temperature ISA and the Aircraft Altimeter 4 Pressure, Humidity & Temperature 4 ISA.

San Jose State University

#4908.If, while in level flight, it becomes necessary to use an alternate source of static pressure vented inside the airplane, which of the following.

Performance ATC Chapter 2.

Chapter 8 Coordinate Systems.

Aviation Weather Hazards: Density Altitude

What Makes the Wind Blow? ATS 351 Lecture 8 October 26, 2009.

© Mark E. Damon - All Rights Reserved Another Presentation © All rights Reserved Content by Mark Place.

Flight Instruments Which way’s up?

Lesson 16: Aircraft Instrument Systems

Lessons 22,23,24 Upper Level Winds

Lecture 3 Vertical Structure of the Atmosphere. Average Vertical Temperature profile.

Barometric Altimetry Using the Vernier LabPro. Purpose of Report Improved altitude determination for Balloon Fest and other activities Improved altitude.

Air Pressure - #1 element of weather prediction.

* Reading Assignments:

AIR LAW – FLIGHT RULES Airspace classification -1 A.Above ft (FL200) Instrument (IFR) flights only B Visual (VFR) and Instrument (IFR) flights* C.All.

Air Pressure and Winds Chapter 6. Mercury Barometer.

Ch 3 – Pressure, Altitude & Density

Section 02 Lesson 5/6/7 Atmospheric Pressure, Temperature and Density

Chapter 12 Section 2 AIR Pressure.

Section 03 - Altimetry (cont) Lesson 09

Property of Lear Siegler 1. 2 PHYSICS OF THE ATMOSPHERE 3.

Aviation Seminars1 #3248. Which instrument will become inoperative if the pitot tube becomes clogged? A- Altimeter. B- Vertical speed. C- Airspeed.

Principles of Flight.

Atmospheric Moisture Vapor pressure (e, Pa) The partial pressure exerted by the molecules of vapor in the air. Saturation vapor pressure (e s, Pa ) The.

Property of Lear Siegler. PHYSICS OF THE ATMOSPHERE.

Thickness and Thermal Wind /aos101/wk12.html /aos101/wk12.html.

Temperature, Pressure, and Density Danielle Hettmann and Chris Saleh SYST460 – Fall 2011.

Air Pressure and Winds. Atmospheric Pressure  What causes air pressure to change in the horizontal?  Why does the air pressure change at the surface?

RAP 1._____hottest layer of the atmosphere 2._____ second most abundant gas in the atmosphere 3._____layer of the atmosphere we live in 4._____ the trace.

Chapter 6: Air Pressure and Winds Atmospheric pressure Atmospheric pressure Measuring air pressure Measuring air pressure Surface and upper-air charts.

AVAT11001: Course Outline 1.Aircraft and Terminology 2.Radio Communications 3.Structure, Propulsion, Fuel Systems 4.Electrical, Hydraulic Systems and Instruments.

AOS 100: Weather and Climate Instructor: Nick Bassill Class TA: Courtney Obergfell.

Search Pilot Qualification Course Civil Air Patrol Auxiliary of the United States Air Force.

VIRTUAL TEMPERATURE T V (Virtual Temp.) is the temperature a dry air parcel would be if its pressure and density were equal to a given moist air sample.

ATM OCN 100 Summer ATM OCN 100 – Summer 2004 LECTURE 2B ATMOSPHERIC PRESSURE: A Fundamental Weather Element (con’t.) u A. Practical Problem u B.

Pressure Basics  Force per unit area  Barometric/ Air/ Atmospheric pressure is the force exerted by air molecules –Nitrogen (78%) –Oxygen (21%) –Water.

NATS 101 Section 4: Lecture 14 Air Pressure.

ATM OCN 100 Summer ATM OCN 100 – Summer 2002 LECTURE 4 ATMOSPHERIC PRESSURE: A Fundamental Weather Element (con’t.) u A. Practical Problem u B.

Properties of the Atmosphere. Heat vs. Temperature  Temperature – measure of how rapidly or slowly molecules move around.  Higher the temperature =

Barometry  Evangelista Torricelli credited with invention of barometer.  Gasparo Berti may have been first.

Air pressure is the pressure exerted by the weight of air above Exerted in all directions (up, down, and sideways) The air pressure pushing down on.

Flight Instrumentation

AOSC 200 Lesson 27. A Typical Day in a Pollution Episode A common severe pollution weather pattern occurs when high pressure is centered just west of.

Chapter 5 Air Pressure. Driving Question What is the significance of horizontal and vertical variations in air pressure?

CGS Ground School Airmanship Altimetry

Station vs. MSL Pressure

Basic Principle An altimeter measures air pressure, decreasing with increasing altitude ( barometric formula), and from the surrounding's pressure calculated.

Weather 101 and beyond Edward J. Hopkins

5 Minutes – Silent Study Time

Air Pressure Can you feel it?.

Atmospheric Pressure and Density

Air Pressure Can you feel it?.

101 Atmospheric Pressure.

Air Pressure Can you feel it? 1.

Air Pressure Can you feel it? 1.

Unit: Water and the Atmosphere Lesson 2: Air Pressure

Atmospheric Pressure and Density

Air Pressure and Wind Pages

Intro. to Atmospheric Sciences Plymouth State University

Presentation transcript:

Section 03 - Altimetry Lesson 08 The Altimeter Altimeter Errors Altimeter Definitions Altimeter Settings

The Altimeter Close connection between pressure and height It is primarily an instrument merely for measuring pressure. Similar to an aneroid barometer

The Altimeter The relationship between pressure and height is constantly changing and depends on the surface pressure and the mean temperature of the air column up to the height concerned. The relationship between pressure and height is governed by the pressure-height equation. The height indicated on an altimeter is directly dependent on the surface pressure and the mean temperature of the air column from the surface up to the height of the altimeter.

Pressure - Height Equation Note: It is not necessary to memorize this equation for the exams Calculation of Height/Thickness between two pressure levels H2 - H1 = 221.1 T (logP1 - logP2) ‘T’ in the formula is the MEAN temperature of the layer. Thus the thickness of a layer is directly dependent on this mean temperature ‘T’. The true altitude of an aircraft will depend on the mean temperature of the air layer below the aircraft.

Altimeter Errors Altimeters are calibrated according to the ISA. Altimeters will only indicate correctly when: the air column corresponds to ISA ELR 1.98°C/1000 ft. The surface pressure is standard; 1013.25 mb.

Altimeter Errors, cont’d This results in two main errors: Barometric Error When the pressure at sea level varies from ISA causing variations aloft. Temperature Error When the air column is colder or warmer than ISA.

Density Altitude Air behaves according to the gas laws. If the air is warmed the density will decrease. If it is cooled the density will increase. This will affect what is called the “Density Altitude.”

Density Altitude Density Altitude is that height in the ISA which will correspond to the prevailing (ambient) density. The rule of thumb to calculate this is: A change of 1°C will result in 120 ft change in density altitude. If air column is ISA the Density Altitude =ISA Altitude.

Variation of Density Altitude with Temperature

Influence of Air Temperature on Altimeter Indications Height indicated on an altimeter is: directly dependent on the height of the air column above the altimeter.

Influence of Air Temperature on Altimeter Indications, cont’d If the temperature of the air column increases there will be a greater height of air above the altimeter and it will sense a greater pressure and register a lower altitude. (It will under read.) If the temperature of the air column is decreased there will be less air above the altimeter and this will be sensed as a decrease in pressure and the altimeter will indicate a greater altitude. ( It will over read.)

Effect of temperature and pressure variation If the surface pressure or mean temperature of the air layer below the aircraft is decreasing then true altitude will decrease and the altimeter will over-read on arrival at destination. If the surface pressure or mean temperature of the air layer below the aircraft is increasing then true altitude will increase and the altimeter will under-read on arrival at destination.

Temperature Error In most cases density is unknown Temperature is easily measured so it is better to speak of “Temperature Error,” rather than density error. Rule of thumb: 1% of height for 2.5°C (4% per 10°C), or for every 1°C of ISA deviation the altimeter is in error by 4ft per 1000ft of altitude

Temperature error calculation 10°C deviation = 4% 4% of 3000ft = 4x30=120ft.

Typical Altimeters

Altimeter Definitions (1) with 1013.25 mb set on its subscale then the Pressure altitude: Is the height of a given level in the ISA above the 1013.25mb pressure datum. If an aircraft is flying vertical position is expressed as a Flight Level. e.g. FL050; FL180.

Altimeter Definitions (1) The setting of 1013.25mb is referred to as ‘standard altimeter(or pressure)setting.’ (SPS) Flight levels (FL) are pressure altitudes expressed in units of 100 feet; e.g. FL340 is a pressure altitude of 34,000 ft.

Altimeter Definitions (2) Density Altitude: Is that altitude in the ISA at which the prevailing air density is to be found. If the air is warmer than ISA it will be less dense and the density altitude will be higher in the ISA than the pressure altitude. If the air is cooler than ISA then the density altitude will be less than the pressure altitude.

Altimeter Definitions (3) True Altitude: is the exact vertical distance above Mean Sea Level (MSL). This will differ from indicated altitude if the temperature varies from ISA conditions and the sub-scale setting is different from the value of mean sea level pressure directly below the aircraft.

Altimeter Pressure Settings QFE QFF QNH Regional QNH Standard Pressure Setting QNE

QFE Is a pressure setting which when set on the sub-scale of an altimeter will cause it to read zero at the airfield elevation. An airfield may have a touchdown QFE if there is a difference in height of 2m (7ft) or more between aerodrome reference and runway threshold.

QFF Is the local station barometric pressure adjusted to mean sea level assuming an isothermal column of air at station temperature It is expressed to one decimal point.

QNH Is a pressure setting which when set on an altimeter sub-scale will cause it to read the airfield elevation above mean sea level. ISA conditions are assumed for the air column It is always expressed in integer values.

QFF v QNH

Regional QNH Is the lowest forecast QNH for a period of one hour for a designated region

Standard Pressure Setting is defined as 1013.25 mb. When flying with standard pressure set on the subscale the vertical position of the aircraft is referred to as it’s ‘flight level.’

QNE Is the height indicted on an altimeter with 1013 mb set on the subscale. It is the same as pressure altitude.

Altimeter Calibration All altimeters are calibrated according to the International Standard Atmosphere. Any variation from this introduces an error mainly due to temperature deviation from ISA. Provided all aircraft use the same sub-scale setting, separation can be maintained.

Table of ISA Values Height Flight Height Temp Pressure Density in ft Level in m °C hPa kg/m3 -1000 -10 -305 +17 1050 1.26 0 0 0 +15 1013 1.23 5000 50 1524 +05 843(850) 1.06 10000 100 3048 -05 697(700) 0.90 15000 150 4572 -15 572 0.77 18000 180 5486 -21 506(500) 0.70 24000 240 7315 -33 393(400) 0.57 30000 300 9144 -44 301(300) 0.458 34000 340 10363 -52 250 0.394 39000 390 11900 -56.5 197(200) 0.317

Standard Pressure Levels

An aircraft cruising at FL80, flying from low to high pressure maintains a constant true altitude. Why? FL100 COLD WARM A. 1012 hPa B. 1015 hPa 1013 hPa