ASX Glossary - K: Difference between revisions

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    <table>
<table>
<tr id="ASX">
<tr>
    <td class="term" style="text-align: center; font-size: 1em">
        <a href="https://wiki.alsresume.com/index.php?title=AviationSafetyX" target="_blank"
          style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"
          onmouseover="this.style.color='#ff4f01';"
          onmouseout="this.style.color='#40E0D0';">
            AviationSafetyX<br>and
        </a> <br>
        <span style="color: #00ffe3; font-size: 1em;">ASX Wikibase</span>
        <br>
        <img src="https://www.alsresume.com/wp-content/uploads/2025/03/ASX-icon.jpg"
            alt=“A”SXWiki
            style="display: block; margin: 10px auto; width: 80px; height: auto;">
    </td>
    <td class="description">
        <a href="https://wiki.alsresume.com/index.php?title=AviationSafetyX" target="_blank"
          style="color: #00ff01; font-weight: bold; text-decoration: none; cursor: pointer;"
          onmouseover="this.style.color='#ff4f01';"
          onmouseout="this.style.color='#00ff01';">
            AviationSafetyX
        </a> is a comprehensive aviation safety and knowledge hub, offering expertly curated articles, resources, and visual content dedicated to flight safety, air accident investigation, aircraft systems, and operational integrity. With a database exceeding 5,000 articles, it serves aviation professionals, students, and enthusiasts worldwide. Built on decades of experience, ASX blends technical precision with bold, immersive presentation to enhance aviation understanding, reduce risk, and ultimately help save lives.
    </td>
    <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/03/ASX-2x-Logo-thumb.jpg" alt="177th FW NJANG Jersey Devils">
    </td>
</tr>
<tr id="177th-fw-njang-jersey-devils">
    <td class="term" style="text-align: center;">
        <a href="https://wiki.alsresume.com/index.php?title=177th_Fighter_Wing" target="_blank"
          style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"
          onmouseover="this.style.color='#ff4f01';"
          onmouseout="this.style.color='#40E0D0';">
            177th FW NJANG
        </a> <br>
        <span style="color: #ac001f; font-style: italic; font-size: 1.2em;">Jersey Devils</span>
        <br>
        <img src="https://www.alsresume.com/wp-content/uploads/2025/03/Jersey-Devils.png"
            alt="Jersey Devils Logo"
            style="display: block; margin: 10px auto; width: 80px; height: auto;">
    </td>
    <td class="description">
        The <a href="https://www.177fw.ang.af.mil/" target="_blank"
          style="color: #00ff01; font-weight: bold; text-decoration: none; cursor: pointer;"
          onmouseover="this.style.color='#ff4f01';"
          onmouseout="this.style.color='#00ff01';">
            177th Fighter Wing (177 FW)
        </a> of the NJANG, the Jersey Devils, currently operate F-16C Fighting Falcons out of
        <span style="color: #00ff01; font-weight: bold; text-decoration: none; cursor: pointer;"
              onmouseover="this.style.color='#ff4f01';"
              onmouseout="this.style.color='#00ff01';"
              onclick="window.open('https://www.google.com/maps/place/39%C2%B027%2729.77%22N+74%C2%B035%2710.47%22W/@39.458269,-74.586242,17z', '_blank')">
            Atlantic City's International Airport (ACY)
        </span>. Tasked with air defense and homeland security, it supports both state and federal missions, including NORAD’s Aerospace Control Alert. The unit, the last operator of the Convair F-106 Delta Dart, has a proud history of combat deployments and domestic operations.
    </td>
    <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/03/Jersey-Devils.jpg" alt="177th FW NJANG Jersey Devils">
    </td>
</tr>
 
<tr id="Automatic Direction Finder (ADF)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Automatic_direction_finder" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Ka-band_Doppler_Radar" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Ka-Band Doppler Radar
          Automatic Direction Finder (ADF)
         </a>
         </a>
     </td>
     </td>
     <td class="description">
     <td class="description">Ka-band Doppler radar is used in weather tracking, wind shear detection, and aviation research. It provides highly detailed atmospheric data, allowing pilots and meteorologists to anticipate turbulence, storms, and hazardous flying conditions.</td>
        A navigation device that receives radio signals from non-directional beacons (NDBs) and displays the bearing to the beacon. Pilots use the ADF for en-route navigation, approaches, and situational awareness, particularly in areas lacking modern navigation aids like GPS or VORs.
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/KA-Band-Doppler.jpg" alt="Ka-Band Doppler Radar"></td>
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/ADF.jpg" alt=“ADF”>
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aerodynamics">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aerodynamics" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Ka-band_Doppler_Radar" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Ka-Band Radar
          Aerodynamics
         </a>
         </a>
     </td>
     </td>
     <td class="description">
     <td class="description">Ka-band radar operates at high-frequency microwave wavelengths, commonly used in weather detection, terrain mapping, and aircraft surveillance. It offers high-resolution imaging and precise target tracking, making it valuable for advanced avionics systems, synthetic aperture radar (SAR), and satellite communications in modern aviation technology.</td>
        The study of air movement and its interaction with solid objects, such as aircraft. Aerodynamics focuses on lift, drag, thrust, and airflow, determining how an aircraft performs and handles under various flight conditions. Effective aerodynamic design enhances fuel efficiency, speed, and safety.
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Ka-Band.jpg" alt="Ka-Band Radar"></td>
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aerodynamics.jpg" alt="Aerodynamics">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aerodrome">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aerodrome" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Ka-Band_Satcom_(Satellite_Communications)" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Ka-Band Satcom (Satellite Communications)</a>
          Aerodrome
</td>
        </a>
     <td class="description">Ka-band satellite communications provide high-speed data connectivity for aircraft, enabling in-flight internet access, weather updates, and navigation enhancements. Airlines and military operations use Ka-band Satcom for improved passenger services and real-time flight data transmission.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/KBand.jpg" alt="Ka-Band Satcom (Satellite Communications)"></td>
     <td class="description">
        A location for aircraft operations, encompassing runways, taxiways, aprons, hangars, and control towers. Aerodromes range from small airstrips for general aviation to large airports with international capabilities, serving passengers, cargo, and military needs.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aerodrome.jpg" alt="Aerodrome">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aeronautical Chart">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Sectional_aeronautical_chart" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=K%C3%A1rm%C3%A1n_line" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kármán Line (Edge of Space)</a>
          Aeronautical Chart
</td>
        </a>
     <td class="description">The Kármán Line, located at an altitude of 100 km (62 miles) above sea level, marks the boundary between Earth's atmosphere and outer space. It serves as the internationally recognized threshold for defining space travel and aerospace flight.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Karam.jpg" alt="Kármán Line (Edge of Space)"></td>
     <td class="description">
        A specialized map for pilots, detailing airspace, navigation aids, terrain, and airport data. Aeronautical charts assist in planning and executing flights, ensuring pilots avoid restricted areas and maintain safe routes.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aeronautical-Chart.jpg" alt="Aeronautical Chart">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aileron">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aileron" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Keep_Out_Zone_(KOZ)&veaction=edit" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Keep Out Zone (KOZ) in Airports</a>
          Aileron
</td>
        </a>
     <td class="description">A Keep Out Zone is a restricted area within an airport or airspace where unauthorized aircraft or personnel are prohibited. KOZs exist around runways, control towers, and military installations to maintain security and safety.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Keep-Out.jpg" alt="Keep Out Zone (KOZ) in Airports"></td>
     <td class="description">
        A hinged control surface on the trailing edge of an aircraft's wing. Ailerons operate in opposite directions on each wing to control the aircraft's roll, allowing it to bank or turn while maintaining lateral stability.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Ailerons.jpg" alt="Aileron">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Air Traffic Control (ATC)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Air_traffic_control" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kelvin" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kelvin Temperature Scale (Aviation Applications)</a>
          Air Traffic Control (ATC)
</td>
        </a>
     <td class="description">The Kelvin scale is a thermodynamic temperature measurement system used in aviation meteorology and engineering. It is essential for calculating engine performance, fuel efficiency, and atmospheric conditions. Unlike Celsius or Fahrenheit, Kelvin starts at absolute zero, the point where molecular motion ceases.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Kelvin.jpg" alt="Kelvin Temperature Scale (Aviation Applications)"></td>
     <td class="description">
        A service provided by trained personnel to direct aircraft during all phases of flight. ATC ensures safe separation between aircraft, coordinates departures and arrivals, and provides critical information like weather updates and runway conditions.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/ATC.jpg" alt="Air Traffic Control (ATC)">
    </td>
</tr>
</tr>
<tr>
<tr>
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aircraft_Fire_Detection_System" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Jet_fuel" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">Aircraft Fire Detection System
           onmouseout="this.style.color='#40E0D0';">Kerosene-Based Jet Fuel</a>
        </a>
</td>
    </td>
     <td class="description">Most jet fuels, including Jet A and Jet A-1, are kerosene-based, offering high energy content and stability for turbine engines. Kerosene’s low freezing point and efficient combustion make it ideal for high-altitude operations, ensuring reliable performance under extreme temperature conditions.</td>
     <td class="description">A safety system installed in aircraft to detect and alert pilots of potential fires in the engine, cargo compartments, or cabin. It consists of sensors, alarms, and extinguishing mechanisms to mitigate fire risks and enhance passenger safety.</td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Kerosene.jpg" alt="Kerosene-Based Jet Fuel"></td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Fire.jpg" alt="Aircraft Fire Detection System"></td>
</tr>
</tr>
 
<tr>
<tr id="Airfoil">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Airfoil" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kevlar" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kevlar in Aviation</a>
          Airfoil
</td>
        </a>
     <td class="description">Kevlar is a high-strength, lightweight fiber used in aircraft construction, primarily for composite materials, body armor, and reinforced cockpit doors. Its resistance to heat and impact makes it ideal for enhancing aircraft safety and structural durability.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Kevlar.jpg" alt="Kevlar in Aviation"></td>
     <td class="description">
        A structure designed to produce lift when air flows over it, typically used in wings, propellers, and helicopter blades. The unique shape of an airfoil maximizes lift while minimizing drag, making it essential for efficient flight.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Airfoil.jpg" alt="Airfoil">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aircraft Classification">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aircraft_category" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Key_Performance_Indicator_(KPI)" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Key Performance Indicator (KPI) in Aviation</a>
          Aircraft Classification
</td>
        </a>
     <td class="description">KPIs are measurable data points used to evaluate aviation operations, including fuel efficiency, on-time performance, maintenance turnaround, and safety compliance. Airlines and regulators use KPIs to improve operational effectiveness and ensure industry standards are met.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Key-Performance.jpg" alt="Key Performance Indicator (KPI) in Aviation"></td>
     <td class="description">
        A categorization system that groups aircraft by type, weight, purpose, and performance. Examples include commercial jets, light aircraft, helicopters, drones, and gliders, each requiring specific pilot certifications and operational procedures.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aircraft-Classifications.jpg" alt="Aircraft Classification">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aircraft Identification">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aircraft_registration" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Keyhole_Slot_(Aircraft_Design)" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Keyhole Slot (Aircraft Design)</a>
          Aircraft Identification
</td>
        </a>
     <td class="description">A keyhole slot is a structural design feature found in aircraft components, allowing for secure fastener placement and load distribution. These slots improve maintenance accessibility, prevent metal fatigue, and ensure structural integrity in high-stress areas such as fuselage joints and wing connections.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Keyhole-Slot.jpg" alt="Keyhole Slot (Aircraft Design)"></td>
     <td class="description">
        A unique code, often called a registration number or tail number, assigned to each aircraft. This identifier is used during communication with air traffic control, flight tracking, and legal documentation.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aircraft-Identification.jpg" alt="Aircraft Identification">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aircraft Maintenance Manual (AMM)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aircraft_maintenance_technician" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Thrust_reversal" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kickback (Jet Engine Thrust Reversal)</a>
          Aircraft Maintenance Manual (AMM)
</td>
        </a>
     <td class="description">Kickback occurs when a jet engine's thrust reverser deploys improperly, causing unintended backward thrust. This can result in aircraft instability during landing or taxiing. Proper maintenance and pilot awareness prevent dangerous kickback incidents.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Thrust-Reverser.jpg" alt="Kickback (Jet Engine Thrust Reversal)"></td>
     <td class="description">
        A detailed document provided by aircraft manufacturers outlining inspection, repair, and servicing procedures. The AMM ensures that maintenance teams follow precise standards to keep the aircraft airworthy.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aircraft-Maintenance-Manual.jpg" alt="Aircraft Maintenance Manual (AMM)">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Airworthiness Certificate">
     <td class="term">
     <td class="term">
         <a href="https://en.wikipedia.org/wiki/Airworthiness_certificate#Standard_airworthiness_certificate" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kill_Ratio_(Military_Aviation)" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kill Ratio (Military Aviation)</a>
          Airworthiness Certificate
</td>
        </a>
     <td class="description">Kill ratio refers to the number of enemy aircraft downed compared to losses suffered. It is a critical metric in military aviation, used to assess fighter jet effectiveness and combat performance.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Kill-Ratio.jpg" alt="Kill Ratio (Military Aviation)"></td>
     <td class="description">
        A document issued by aviation authorities certifying that an aircraft meets safety standards. It is required for legal operation and is renewed periodically through inspections and compliance with maintenance regulations.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Airworthiness-Certificate.jpg" alt="Airworthiness Certificate">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Altimeter">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Altimeter" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kill_switch" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kill Switch (Aircraft Security Feature)</a>
          Altimeter
</td>
        </a>
     <td class="description">A kill switch is a security mechanism designed to shut down aircraft systems in emergencies, such as hijackings or electrical malfunctions. Military and high-security aircraft use kill switches to disable avionics, engines, or fuel systems when necessary.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Kill-switch.jpg" alt="Kill Switch (Aircraft Security Feature)"></td>
     <td class="description">
        A cockpit instrument that measures altitude by detecting changes in atmospheric pressure. Altimeters display altitude above sea level and are critical for avoiding obstacles and maintaining proper airspace separation.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Altimeter.jpg" alt="Altimeter">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Angle of Attack">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Angle_of_attack" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kilohertz_(kHz)_in_Aviation_Communication" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kilohertz (kHz) in Aviation Communication</a>
        Angle of Attack
</td>
        </a>
     <td class="description">Kilohertz (kHz) is a frequency unit used in aviation radio communication, primarily for VHF and HF transmissions. It ensures reliable pilot-to-air traffic control (ATC) communication and long-distance navigation.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Khertz.jpg" alt="Kilohertz (kHz) in Aviation Communication"></td>
     <td class="description">
        The angle between the chord line of an airfoil and the relative wind. AOA directly impacts lift and drag, and exceeding the critical angle can cause a stall, making it a critical parameter for flight safety.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Angle-of-Attack.jpg" alt="Angle of Attack">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Angle of Incidence">
    <td class="term">
    <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Atmospheric_pressure" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Angle_of_Incidence" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kilopascal (kPa) in Aviation</a>
        Angle of Incidence
</td>
        </a>
     <td class="description">The kilopascal (kPa) is a metric unit of pressure measurement used in aviation for engine thrust calculations, cabin pressurization, and meteorological data. It helps determine atmospheric conditions at different altitudes, affecting aircraft performance, fuel burn rates, and flight planning.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/KpH.jpg" alt="Kilopascal (kPa) in Aviation"></td>
     <td class="description">
        The fixed angle between an aircraft wing's chord line and the longitudinal axis of the aircraft. It is determined during design and construction to optimize lift and performance without requiring pilot adjustment
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Angle-of-Incidence.jpg" alt="Angle of Incidence">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Anti-Ice System">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Ice_protection_system" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kinetic_Energy_in_Aircraft_Motion" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kinetic Energy in Aircraft Motion</a>
        Anti-Ice System
</td>
        </a>
     <td class="description">Kinetic energy plays a crucial role in aircraft takeoff, flight, and landing. It is the energy an aircraft possesses due to its motion. Understanding kinetic energy is vital for calculating takeoff speeds, braking distances, and emergency landing scenarios.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Kinetic-Energy.jpg" alt="Kinetic Energy in Aircraft Motion"></td>
     <td class="description">
        A system used to prevent the formation of ice on critical surfaces like wings, engines, and windshields. Anti-ice systems use heated surfaces, pneumatic boots, or chemical solutions to maintain safety in icy conditions.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Anti-Icing.jpg" alt="Anti-Ice System">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Approach Plate">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Approach_plate" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Aerodynamic_heating" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kinetic Heating (Re-Entry and High-Speed Flight)</a>
      Approach Plate
</td>
        </a>
     <td class="description">Kinetic heating occurs when an aircraft or spacecraft moves at high speeds, generating intense friction with the atmosphere. This effect is crucial for hypersonic vehicles, requiring heat-resistant materials to prevent structural damage during re-entry or supersonic flight.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Kynetic-Energy.jpg" alt="Kinetic Heating (Re-Entry and High-Speed Flight)"></td>
     <td class="description">
        A detailed chart used in instrument flight rules (IFR) to guide pilots during an approach to a runway. It provides information on headings, altitudes, navigation aids, and missed approach procedures.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Approach-Plate.jpg" alt="Approach Plate">
    </td>
</tr>
</tr>
 
<tr>
<tr id="APU (Auxiliary Power Unit)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Auxiliary_power_unit" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Wake_turbulence" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kinetic Turbulence (Wake Vortex Effects)</a>
        APU (Auxiliary Power Unit)
</td>
        </a>
     <td class="description">Kinetic turbulence is caused by the wake vortices of large aircraft, creating unstable airflow patterns. It poses risks to following aircraft, requiring proper separation distances to prevent loss of control.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Vortex.jpg" alt="Kinetic Turbulence (Wake Vortex Effects)"></td>
     <td class="description">
        A small turbine engine located in the aircraft's tail section. The APU provides power for electrical systems and air conditioning while on the ground and assists in starting the main engines.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/APU.jpg" alt="APU (Auxiliary Power Unit)">
    </td>
</tr>
</tr>
 
<tr>
<tr id="area-51">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Area_51" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Homebuilt_aircraft" target="_blank"  
           style="color: #00ff01; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#00ff01';">
           onmouseout="this.style.color='#40E0D0';">Kit Aircraft</a>
          Area 51/Groom Lake/R-4808 N
</td>
        </a>
     <td class="description">A kit aircraft is a small, often experimental plane sold as a self-assembly package. Enthusiasts and private pilots build kit aircraft for personal use, testing aerodynamics, engineering skills, and cost-effective flying solutions.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Kit.jpg" alt="Kit Aircraft"></td>
     <td class="description">
        <span style="color: #00ff01; font-weight: bold; text-decoration: none; cursor: pointer;"
              onmouseover="this.style.color='#ff4f01';"
              onmouseout="this.style.color='#00ff01';"
              onclick="window.open('https://www.google.com/maps/@37.2815,-115.805667,15z/data=!3m1!1e3', '_blank')">
              Area 51/Groom Lake
        </span> is a highly classified U.S. Air Force facility located in southern Nevada, officially known as Homey Airport or Groom Lake. Established in 1955 for testing the Lockheed U-2 aircraft, its operations remain secretive, fueling numerous UFO conspiracy theories. The CIA publicly acknowledged its existence in 2013. Situated 83 miles northwest of Las Vegas, the area attracts tourists, especially to the nearby town of Rachel on the "Extraterrestrial Highway."
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/03/Area-51.jpg" alt="Area 51/Groom Lake/R-4808 N">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Area Navigation (RNAV)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Area_navigation" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Galley_(kitchen)#Aviation_kitchen" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kitchen Galley (Aircraft Catering Area)</a>
          Area Navigation (RNAV)
</td>
        </a>
     <td class="description">The kitchen galley is the onboard catering facility in passenger aircraft where flight attendants prepare and store meals. It includes ovens, refrigeration, and secured storage to accommodate in-flight service needs.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Galley.jpg" alt="Kitchen Galley (Aircraft Catering Area)"></td>
     <td class="description">
        A navigation system that allows aircraft to follow direct routes between any two points, rather than being restricted to paths defined by ground-based navigation aids. RNAV improves efficiency and reduces travel time.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Area-Navigation.jpg" alt="Area Navigation (RNAV)">
    </td>
</tr>
</tr>
 
<tr>
<tr id="ARTCC (Air Route Traffic Control Center)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Area_control_center" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Klystron" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Klystron Tube (Radar and Avionics Use)</a>
        ARTCC (Air Route Traffic Control Center)
</td>
        </a>
     <td class="description">A klystron tube is a specialized vacuum tube used in radar and radio frequency systems for aircraft navigation and surveillance. It amplifies microwave signals, enhancing radar performance for air traffic control and military applications.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Klystron-RADAR.jpg" alt="Klystron Tube (Radar and Avionics Use)"></td>
     <td class="description">
        A facility that manages en-route air traffic in controlled airspace. ARTCC controllers ensure safe separation between aircraft during cruise phases of flight.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/ARTCC.jpg" alt="ARTCC (Air Route Traffic Control Center)">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aspect Ratio">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Aspect_Ratio" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Knee_Pad_Checklist_(Pilot_Reference_Guide)" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Knee Pad Checklist (Pilot Reference Guide)</a>
        Aspect Ratio
</td>
        </a>
     <td class="description">A knee pad checklist is a compact reference guide strapped to a pilot’s leg, containing crucial flight procedures, emergency actions, and navigation data. It provides quick access to essential information without requiring pilots to look away from the controls.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Knee-clipboard.jpg" alt="Knee Pad Checklist (Pilot Reference Guide)"></td>
     <td class="description">
        he ratio of an aircraft's wingspan to its average chord (width). High aspect ratios reduce drag and improve fuel efficiency, while low aspect ratios enhance maneuverability.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aspect-Ratio.jpg" alt="Aspect Ratio">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Altitude">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Altitude" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Aviation_Cadet_Training_Program_(USN)" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Knowledge-Based Training (Aviation Education)</a>
          Altitude
</td>
        </a>
     <td class="description">Knowledge-based training focuses on theoretical instruction in pilot education, covering aerodynamics, meteorology, regulations, and systems management. It complements hands-on flight training to ensure pilots are well-prepared for real-world aviation scenarios.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Knowledge-based-training.jpg" alt="Knowledge-Based Training (Aviation Education)"></td>
     <td class="description">
        The vertical distance between an aircraft and a reference point, typically sea level or ground level. Altitude is measured using an altimeter and is categorized into pressure altitude, true altitude, and indicated altitude.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Altitude.jpg" alt="Altitude">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Augmentor">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=General_Electric_F110" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Engine_knocking" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Knock Sensor (Piston Engine Aircraft)</a>
        Augmentor
</td>
        </a>
     <td class="description">A knock sensor detects abnormal combustion (engine knocking) in piston-engine aircraft. It helps pilots and maintenance crews identify fuel or timing issues before they lead to engine damage.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Knock-Sensor.jpg" alt="Knock Sensor (Piston Engine Aircraft)"></td>
     <td class="description">
        An augmenter is an older Pratt & Whitney term for an afterburner—a secondary combustion system that injects fuel into the exhaust to boost thrust. Used in early F100-powered F-16s, it enhanced supersonic performance. The term faded as “afterburner” became standard across military engine platforms. Thanks, Matthew McKee, for the suggestion!
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/03/Augmentor.jpg" alt="Augmentor">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Autoland">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Autoland" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Knot_(unit)" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Knot (Nautical Mile Per Hour)</a>
        Autoland
</td>
        </a>
     <td class="description">A knot is a unit of speed used in aviation and maritime navigation, equal to one nautical mile per hour (1.852 km/h or 1.151 mph). It is the standard measurement for airspeeds, wind speeds, and flight navigation, ensuring consistency in global aviation operations.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Knots.jpg" alt="Knot (Nautical Mile Per Hour)"></td>
     <td class="description">
        An advanced system that automates the landing process. Used in low-visibility conditions, autoland controls the aircraft's descent, flare, and touchdown, ensuring precision and safety.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Autoland.jpg" alt="Autoland">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Automatic Dependent Surveillance-Broadcast (ADS-B)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Automatic_Dependent_Surveillance%E2%80%93Broadcast" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Knot-to-Mach_Conversion" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Knot-to-Mach Conversion (Airspeed Calculations)</a>
        Automatic Dependent Surveillance-Broadcast (ADS-B)
</td>
        </a>
     <td class="description">Pilots and engineers use knot-to-Mach conversion charts to determine an aircraft’s speed relative to the speed of sound. This conversion is vital for high-speed flight operations, especially in supersonic and hypersonic aviation.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Knot-to-Mach.jpg" alt="Knot-to-Mach Conversion (Airspeed Calculations)"></td>
     <td class="description">
        A surveillance technology where an aircraft broadcasts its position, speed, altitude, and other data. ADS-B improves situational awareness and enhances air traffic management..
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/ADS-B.jpg" alt="Automatic Dependent Surveillance-Broadcast (ADS-B)">
    </td>
</tr>
</tr>
 
<tr>
<tr id=" Automatic Direction Finder (ADF)">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=ADF" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Altimeter" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kollsman Window (Altimeter Adjustment)</a>
        Automatic Direction Finder (ADF)
</td>
        </a>
     <td class="description">The Kollsman window is a calibration dial on an aircraft’s altimeter that allows pilots to adjust for barometric pressure changes. Proper setting ensures accurate altitude readings, critical for maintaining separation from terrain and other aircraft in changing atmospheric conditions.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/K-window.jpg" alt="Kollsman Window (Altimeter Adjustment)"></td>
     <td class="description">
        A navigation aid that uses radio signals from NDBs to determine the direction of a beacon relative to the aircraft. ADF is especially useful in remote areas where GPS and other systems may not be available.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/ADF2.jpg" alt=" Automatic Direction Finder (ADF)">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Autopilot">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Autopilot" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Krueger_flap" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Krueger Flaps</a>
        Autopilot
</td>
        </a>
     <td class="description">Krueger flaps are lift-enhancing leading-edge devices used on aircraft wings to improve low-speed performance during takeoff and landing. They increase lift by extending downward, altering airflow over the wing, and reducing stall speeds, commonly found on commercial and transport aircraft.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/02/Kruger.jpg" alt="Krueger Flaps"></td>
     <td class="description">
        A system that automates control of the aircraft's flight path. Autopilot maintains heading, altitude, and course, reducing pilot workload, especially during long flights or adverse weather.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Autopilot.jpg" alt="Autopilot">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Aviation Meteorology">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Meteorology#Aviation_meteorology" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kuwait_Airways" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kuwait Airways (National Carrier)</a>
        Aviation Meteorology
</td>
        </a>
     <td class="description">Kuwait Airways is the national airline of Kuwait, operating domestic and international flights. It is known for its fleet modernization, adherence to strict safety protocols, and contribution to Middle Eastern aviation development.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/Kuwait-Airways.jpg" alt="Kuwait Airways (National Carrier)"></td>
     <td class="description">
        The study of weather and its impact on aviation operations. Aviation meteorology covers phenomena such as turbulence, wind shear, icing, thunderstorms, and jet streams to ensure flight safety and efficiency.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Aviation-Meteorology.jpg" alt="Aviation Meteorology">
    </td>
</tr>
</tr>
 
<tr>
<tr id="Avionics">
     <td class="term">
     <td class="term">
         <a href="https://wiki.alsresume.com/index.php?title=Avionics" target="_blank"  
         <a href="https://wiki.alsresume.com/index.php?title=Kuwait_Flight_Information_Region" target="_blank"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           style="color: #40E0D0; font-weight: bold; text-decoration: none; cursor: pointer;"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseover="this.style.color='#ff4f01';"  
           onmouseout="this.style.color='#40E0D0';">
           onmouseout="this.style.color='#40E0D0';">Kuwait Flight Information Region (KFIR)</a>
        Avionics
</td>
        </a>
     <td class="description">The Kuwait Flight Information Region is the designated airspace managed by Kuwait’s aviation authorities. It controls air traffic flow, ensures safe operations, and coordinates with neighboring countries for regional flight management.</td>
    </td>
     <td class="image-column"><img src="https://www.alsresume.com/wp-content/uploads/2025/03/KIFR.jpg" alt="Kuwait Flight Information Region (KFIR)"></td>
     <td class="description">
        The electronic systems used in aircraft, including navigation, communication, and monitoring systems. Avionics advancements have revolutionized aviation, enabling precision navigation, real-time communication, and comprehensive flight data monitoring.
    </td>
     <td class="image-column">
        <img src="https://www.alsresume.com/wp-content/uploads/2025/02/Avionics.jpg" alt="Avionics">
    </td>
</tr>
</tr>


    </table>
</table>
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Latest revision as of 19:17, 23 April 2025


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Aviation Glossary - A

Ka-Band Doppler Radar Ka-band Doppler radar is used in weather tracking, wind shear detection, and aviation research. It provides highly detailed atmospheric data, allowing pilots and meteorologists to anticipate turbulence, storms, and hazardous flying conditions. Ka-Band Doppler Radar
Ka-Band Radar Ka-band radar operates at high-frequency microwave wavelengths, commonly used in weather detection, terrain mapping, and aircraft surveillance. It offers high-resolution imaging and precise target tracking, making it valuable for advanced avionics systems, synthetic aperture radar (SAR), and satellite communications in modern aviation technology. Ka-Band Radar
Ka-Band Satcom (Satellite Communications) Ka-band satellite communications provide high-speed data connectivity for aircraft, enabling in-flight internet access, weather updates, and navigation enhancements. Airlines and military operations use Ka-band Satcom for improved passenger services and real-time flight data transmission. Ka-Band Satcom (Satellite Communications)
Kármán Line (Edge of Space) The Kármán Line, located at an altitude of 100 km (62 miles) above sea level, marks the boundary between Earth's atmosphere and outer space. It serves as the internationally recognized threshold for defining space travel and aerospace flight. Kármán Line (Edge of Space)
Keep Out Zone (KOZ) in Airports A Keep Out Zone is a restricted area within an airport or airspace where unauthorized aircraft or personnel are prohibited. KOZs exist around runways, control towers, and military installations to maintain security and safety. Keep Out Zone (KOZ) in Airports
Kelvin Temperature Scale (Aviation Applications) The Kelvin scale is a thermodynamic temperature measurement system used in aviation meteorology and engineering. It is essential for calculating engine performance, fuel efficiency, and atmospheric conditions. Unlike Celsius or Fahrenheit, Kelvin starts at absolute zero, the point where molecular motion ceases. Kelvin Temperature Scale (Aviation Applications)
Kerosene-Based Jet Fuel Most jet fuels, including Jet A and Jet A-1, are kerosene-based, offering high energy content and stability for turbine engines. Kerosene’s low freezing point and efficient combustion make it ideal for high-altitude operations, ensuring reliable performance under extreme temperature conditions. Kerosene-Based Jet Fuel
Kevlar in Aviation Kevlar is a high-strength, lightweight fiber used in aircraft construction, primarily for composite materials, body armor, and reinforced cockpit doors. Its resistance to heat and impact makes it ideal for enhancing aircraft safety and structural durability. Kevlar in Aviation
Key Performance Indicator (KPI) in Aviation KPIs are measurable data points used to evaluate aviation operations, including fuel efficiency, on-time performance, maintenance turnaround, and safety compliance. Airlines and regulators use KPIs to improve operational effectiveness and ensure industry standards are met. Key Performance Indicator (KPI) in Aviation
Keyhole Slot (Aircraft Design) A keyhole slot is a structural design feature found in aircraft components, allowing for secure fastener placement and load distribution. These slots improve maintenance accessibility, prevent metal fatigue, and ensure structural integrity in high-stress areas such as fuselage joints and wing connections. Keyhole Slot (Aircraft Design)
Kickback (Jet Engine Thrust Reversal) Kickback occurs when a jet engine's thrust reverser deploys improperly, causing unintended backward thrust. This can result in aircraft instability during landing or taxiing. Proper maintenance and pilot awareness prevent dangerous kickback incidents. Kickback (Jet Engine Thrust Reversal)
Kill Ratio (Military Aviation) Kill ratio refers to the number of enemy aircraft downed compared to losses suffered. It is a critical metric in military aviation, used to assess fighter jet effectiveness and combat performance. Kill Ratio (Military Aviation)
Kill Switch (Aircraft Security Feature) A kill switch is a security mechanism designed to shut down aircraft systems in emergencies, such as hijackings or electrical malfunctions. Military and high-security aircraft use kill switches to disable avionics, engines, or fuel systems when necessary. Kill Switch (Aircraft Security Feature)
Kilohertz (kHz) in Aviation Communication Kilohertz (kHz) is a frequency unit used in aviation radio communication, primarily for VHF and HF transmissions. It ensures reliable pilot-to-air traffic control (ATC) communication and long-distance navigation. Kilohertz (kHz) in Aviation Communication
Kilopascal (kPa) in Aviation The kilopascal (kPa) is a metric unit of pressure measurement used in aviation for engine thrust calculations, cabin pressurization, and meteorological data. It helps determine atmospheric conditions at different altitudes, affecting aircraft performance, fuel burn rates, and flight planning. Kilopascal (kPa) in Aviation
Kinetic Energy in Aircraft Motion Kinetic energy plays a crucial role in aircraft takeoff, flight, and landing. It is the energy an aircraft possesses due to its motion. Understanding kinetic energy is vital for calculating takeoff speeds, braking distances, and emergency landing scenarios. Kinetic Energy in Aircraft Motion
Kinetic Heating (Re-Entry and High-Speed Flight) Kinetic heating occurs when an aircraft or spacecraft moves at high speeds, generating intense friction with the atmosphere. This effect is crucial for hypersonic vehicles, requiring heat-resistant materials to prevent structural damage during re-entry or supersonic flight. Kinetic Heating (Re-Entry and High-Speed Flight)
Kinetic Turbulence (Wake Vortex Effects) Kinetic turbulence is caused by the wake vortices of large aircraft, creating unstable airflow patterns. It poses risks to following aircraft, requiring proper separation distances to prevent loss of control. Kinetic Turbulence (Wake Vortex Effects)
Kit Aircraft A kit aircraft is a small, often experimental plane sold as a self-assembly package. Enthusiasts and private pilots build kit aircraft for personal use, testing aerodynamics, engineering skills, and cost-effective flying solutions. Kit Aircraft
Kitchen Galley (Aircraft Catering Area) The kitchen galley is the onboard catering facility in passenger aircraft where flight attendants prepare and store meals. It includes ovens, refrigeration, and secured storage to accommodate in-flight service needs. Kitchen Galley (Aircraft Catering Area)
Klystron Tube (Radar and Avionics Use) A klystron tube is a specialized vacuum tube used in radar and radio frequency systems for aircraft navigation and surveillance. It amplifies microwave signals, enhancing radar performance for air traffic control and military applications. Klystron Tube (Radar and Avionics Use)
Knee Pad Checklist (Pilot Reference Guide) A knee pad checklist is a compact reference guide strapped to a pilot’s leg, containing crucial flight procedures, emergency actions, and navigation data. It provides quick access to essential information without requiring pilots to look away from the controls. Knee Pad Checklist (Pilot Reference Guide)
Knowledge-Based Training (Aviation Education) Knowledge-based training focuses on theoretical instruction in pilot education, covering aerodynamics, meteorology, regulations, and systems management. It complements hands-on flight training to ensure pilots are well-prepared for real-world aviation scenarios. Knowledge-Based Training (Aviation Education)
Knock Sensor (Piston Engine Aircraft) A knock sensor detects abnormal combustion (engine knocking) in piston-engine aircraft. It helps pilots and maintenance crews identify fuel or timing issues before they lead to engine damage. Knock Sensor (Piston Engine Aircraft)
Knot (Nautical Mile Per Hour) A knot is a unit of speed used in aviation and maritime navigation, equal to one nautical mile per hour (1.852 km/h or 1.151 mph). It is the standard measurement for airspeeds, wind speeds, and flight navigation, ensuring consistency in global aviation operations. Knot (Nautical Mile Per Hour)
Knot-to-Mach Conversion (Airspeed Calculations) Pilots and engineers use knot-to-Mach conversion charts to determine an aircraft’s speed relative to the speed of sound. This conversion is vital for high-speed flight operations, especially in supersonic and hypersonic aviation. Knot-to-Mach Conversion (Airspeed Calculations)
Kollsman Window (Altimeter Adjustment) The Kollsman window is a calibration dial on an aircraft’s altimeter that allows pilots to adjust for barometric pressure changes. Proper setting ensures accurate altitude readings, critical for maintaining separation from terrain and other aircraft in changing atmospheric conditions. Kollsman Window (Altimeter Adjustment)
Krueger Flaps Krueger flaps are lift-enhancing leading-edge devices used on aircraft wings to improve low-speed performance during takeoff and landing. They increase lift by extending downward, altering airflow over the wing, and reducing stall speeds, commonly found on commercial and transport aircraft. Krueger Flaps
Kuwait Airways (National Carrier) Kuwait Airways is the national airline of Kuwait, operating domestic and international flights. It is known for its fleet modernization, adherence to strict safety protocols, and contribution to Middle Eastern aviation development. Kuwait Airways (National Carrier)
Kuwait Flight Information Region (KFIR) The Kuwait Flight Information Region is the designated airspace managed by Kuwait’s aviation authorities. It controls air traffic flow, ensures safe operations, and coordinates with neighboring countries for regional flight management. Kuwait Flight Information Region (KFIR)

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