(42S) Predicting Freezing Levels and Turn Performance
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01-12-2020, 03:10 PM
Post: #1
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(42S) Predicting Freezing Levels and Turn Performance
Predicting Freezing Levels
The program FREEZE calculates the freezing elevation heights for two situations: Dry: Freezing level in clear weather. The Aviation Pac (see source below) uses a drop rate of 2 °C/1000 ft in its calculation. Wet: Freezing level in clouds on a relatively clear day. Accuracy tends to lessen for cloudy or rainy days. The Aviation Pac (see source below) uses a drop rate of 1.5 °C/1000 ft in its calculation. In general, the freezing level is calculated as: FL = ALT + T * drop rate ALT = altitude of the observer T = temperature The program FREEZE allows the user to choose from a set of units: (Fahrenheit vs. Celsius, feet vs. meters). 1. °F, ft 2. °C, ft 3. °F, m 4. °C, m HP 42S/DM42/Free42 Program FREEZE Code: 00 { 204-Byte Prgm } Download freeze_level.raw here: https://drive.google.com/open?id=13rIbpy...i1PvQPo-_u Turn Performance The program TURN calculates four parameters when it comes to performance of an aircraft: 1. The G-force 2. The stall speed when bank angle is considered 3. The diameter of an airplane's 360° turn 4. The time it takes an airplane to turn 360° The program sets the calculator to Degrees Mode. The units are in feet for distance and knots for speed. Memory Registers Used: Input: R01 = bank angle, in degrees (prompted) R02 = true airspeed, TAS, in knots (prompted) R03 = stall speed, in knots (prompted) Output: R04 = G-Force R05 = turn diameter in nautical miles R06 = time for a 360° to be completed in minutes R07 = stall speed when bank angle is considered, in knots HP 42S/DM42/Free42 Program TURN Code: 00 { 157-Byte Prgm } Input: True Air Speed (cruising speed): 107 knots Stall speed: 54 knots Bank: 30° Output: G Force: 1.1547 Stall: 58.0268 knots Diameter: 0.5828 nautical miles Time: 1.0193 minutes (about 1 minute, 1.1 seconds) Download turn_performance.raw here: https://drive.google.com/open?id=1a_JFuf...gy_BAZckr0 Source: "Predicting Freezing Levels" and "Turn Performance" HP 65 Aviation Pac 1. Hewlett Packard, 1974 |
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