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Open CalculatorAll Architectural Engineering PE Equations (10)
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Beam Deflection (Uniform Load, Simple Span)
Calculate maximum midspan deflection for simply supported beams with uniform loads. Free structural engineering calculator for architects and engineers.
intermediateHigh Frequency -
Fan Laws (Speed Change)
Calculate fan performance changes with speed variations. Determine airflow, pressure, and power requirements using fan laws for HVAC system design and optimization.
intermediateHigh Frequency -
Heat Loss Through Envelope
Calculate steady-state conductive heat loss through walls, roofs, and windows. Essential building envelope thermal performance tool for architects and engineers.
basicHigh Frequency -
Average Illuminance from Luminaires
Calculate average horizontal illuminance on work planes using zonal cavity method. Essential tool for architectural lighting design and workplace illumination planning.
intermediate -
Lighting Power Density
Calculate lighting power density for architectural electrical design. Determine connected lighting power per floor area for energy-efficient building systems.
basic -
Pump Laws (Speed Change)
Calculate pump performance changes with speed variations. Scale flow rate, head, and power using pump affinity laws for mechanical pump systems and HVAC design.
intermediateHigh Frequency -
Space Latent Load (Airflow)
Calculate space latent load based on airflow and humidity ratio difference. Essential HVAC calculator for mechanical engineers and building design professionals.
intermediateHigh Frequency -
Space Sensible Cooling Load (Airflow)
Calculate space sensible cooling load based on airflow and temperature difference. Free HVAC calculator for mechanical engineers and building design professionals.
basicHigh Frequency -
Three-Phase Real Power
Calculate real power for balanced three-phase electrical loads instantly. Essential tool for electrical engineers and power system design professionals.
basicHigh Frequency -
Single-Phase Voltage Drop
Calculate voltage drop in single-phase electrical circuits instantly. Essential tool for architects and electrical engineers designing branch and feeder circuits.
basicHigh Frequency
Frequently Asked Questions
How do I use Beam Deflection (Uniform Load, Simple Span) on the PE exam?
This is the most fundamental beam deflection equation on the PE exam. Memorize it and remember that it only applies to simply supported beams with uniform loads. Always check units carefully - mixing kips, feet, ksi, and in⁴ will give deflection in inches. For cantilevers or point loads, different equations apply.
How do I use Fan Laws (Speed Change) on the PE exam?
Fan laws assume geometric and dynamic similarity - same fan operating at different speeds. Power increases with cube of speed ratio, so small speed increases dramatically increase power consumption. Always verify motor capacity and electrical requirements when increasing speed.
How do I use Heat Loss Through Envelope on the PE exam?
This is the fundamental equation for building envelope thermal analysis. Always verify that ΔT is calculated as inside minus outside temperature. For cooling loads, use outdoor minus indoor temperature. U-values are often given in problem statements or can be found in ASHRAE tables.
How do I use Average Illuminance from Luminaires on the PE exam?
The coefficient of utilization (CU) must be looked up from manufacturer tables based on room cavity ratio and surface reflectances. Light loss factor (LLF) accounts for lamp depreciation, dirt accumulation, and maintenance - typical values range 0.75-0.90. Always round up the number of fixtures to the nearest whole number.
How do I use Lighting Power Density on the PE exam?
Always use nameplate wattage, not lamp wattage - include ballast losses for fluorescent fixtures. Exclude exit signs and emergency lighting from calculations unless specified. Double-check unit consistency (W/ft² vs W/m²).