Ask Lee
Contact Us
Resources
Search
Find
Need help fast? Call
1-800-LEE-PLUG
Home
About Us
Products
What's New
Engineering
Quality
Careers
US English
German
Home
Engineering
Engineering
Lohm Laws
Lohm Definition
Lohm Calculator for Liquids and Gases
Lohm Laws - Working with Liquids
How to Calculate Flow Resistance for Liquids
Two Formulas for Combinations of Restrictors
Fluid Power Dissipation
Lohm Laws for Liquids - how to combine flow resistances for liquids
Viscosity Compensation Factor "V" for a Single Orifice
Viscosities of Various Fluids vs Temperature
Specific Gravity of Various Fluids vs. Temperature
Hydraulic Power
Temperature Rise in Hydraulic Fluids
Momentum Forces
Water Hammer
Bulk Modulus
Cavitation
Examples of How to Calculate Flow Resistance for Liquids
Lohm Laws - Working with Gases
How to Calculate Flow Resistance for Gases
Gas Flow Rate of Various Restriction Air at Room Temperature
ACFM to SCFM Conversion
Flow Factor "f
M
" (Multi-Orifice)
Restrictors in Series or in Parallel
Momentum Forces
Transient Gas Flow
Temperature Change in Gas Flow
Pneumatic Power
Gas Properties
Gas Flow Characteristics
Absolute Pressure Measurement
Electrical Engineering
Ohm's Law
Lee Solenoid Valve Drive Circuit Schematics
Reference Information
Tubing Flow
ROB Number - A Rating System for Safety Screens
System Cleanliness
Pressure Ratings for Lee Precision Microhydraulic Products
Metric Dimensions of Lee Hydraulic Inserts
Primary Standards & Exact/Derived Conversions
Conversion Calculator - Downloadable program
Mass/Volume Conversion Factors
Pressure Conversion Factors
Viscosity Definitions
Viscosity Conversion Chart
Viscosity vs Concentration
Specific Gravity vs Concentration
Graphic Symbols for Hydraulics and Pneumatics
Electro-Fluidic Systems Materials
Glossary
Engineering References
×
