EXIT_NORMAL
Overview
Calculate the loss coefficient (K) for a normal pipe exit discharging into a reservoir.
Excel Usage
=EXIT_NORMAL()Returns (float): Loss coefficient K = 1.0 for a normal pipe exit [-]
Examples
Example 1: Normal pipe exit K = 1.0
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Example 2: Verify exit loss is always 1.0
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Example 3: Exit coefficient verification
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Example 4: Standard exit loss coefficient
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=EXIT_NORMAL()Expected output:
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Python Code
import micropip
await micropip.install(["fluids"])
from fluids.fittings import exit_normal as fluids_exit_normal
def exit_normal():
"""
Calculate the loss coefficient (K) for a normal pipe exit discharging into a reservoir.
See: https://fluids.readthedocs.io/fluids.fittings.html#fluids.fittings.exit_normal
This example function is provided as-is without any representation of accuracy.
Returns:
float: Loss coefficient K = 1.0 for a normal pipe exit [-]
"""
try:
result = fluids_exit_normal()
return float(result)
except Exception as e:
return f"Error: {str(e)}"