Download Pipes PDF

Related PDFs (16)

Aero Thermal Dynamics
Formulas : 16   Size : 351 kb
Computational Fluid Dynamic Solutions
Formulas : 11   Size : 301 kb
Elements of Kinetic Theory
Formulas : 15   Size : 341 kb
Fluid Force
Formulas : 14   Size : 393 kb
Fluid in Motion
Formulas : 17   Size : 422 kb
Fluid Mechanics Basics
Formulas : 14   Size : 382 kb
Hydrostatic Fluid
Formulas : 20   Size : 429 kb
Hypersonic Flow and Disturbances
Formulas : 17   Size : 0 kb
Hypersonic Flow Parameters
Formulas : 20   Size : 412 kb
Liquid Jet
Formulas : 12   Size : 308 kb
Newtonian Flow
Formulas : 14   Size : 355 kb
Pressure Relations
Formulas : 30   Size : 469 kb
Shock Dynamics and Aerodynamic Shape
Formulas : 10   Size : 298 kb

Contents of the Pipes PDF

List of 12 Pipes Formulas

Barlow's Formula for Pipe
Coefficient of Discharge at Venacontracta of Orifice
Depth of Centroid given Total Hydrostatic Force
Diameter of Pipe given Head Loss due to Laminar Flow
Frictional Factor of Laminar flow
Head Loss due to Laminar Flow
Head Loss using Efficiency of Hydraulic Transmission
Heat Loss due to Pipe
Length of Pipe given Head loss
Viscous Force Per Unit Area
Viscous Force using Head loss Due to Laminar Flow
Viscous Stress

Variables used in Pipes PDF

  1. A Area (Square Meter)
  2. Cc Coefficient of Contraction
  3. Cd Coefficient of Discharge
  4. Cv Coefficient of Velocity
  5. d Diameter (Meter)
  6. Do Outside Diameter (Meter)
  7. dpipe Pipe Diameter (Meter)
  8. Dpipe Diameter of Pipe (Meter)
  9. DL Fluid Thickness (Meter)
  10. f Friction Factor
  11. Fhs Hydrostatic Force (Newton)
  12. Fv Viscous Force (Pascal)
  13. Fviscous Force (Newton)
  14. g Acceleration Due To Gravity (Meter per Square Second)
  15. Hent Total Head at Entrance (Meter)
  16. hf Head loss (Meter)
  17. hG Depth of Centroid (Meter)
  18. Lpipe Length (Meter)
  19. P Pressure (Pascal)
  20. Q Rate of Flow (Cubic Meter per Second)
  21. Qpipeloss Heat Loss due to Pipe (Joule)
  22. Re Reynolds Number
  23. s Change in Drawdown (Meter)
  24. SAWetted Surface Area (Square Meter)
  25. t Wall Thickness (Meter)
  26. uFluid Fluid Velocity (Meter per Second)
  27. Vs Viscous Stress (Newton)
  28. VG Velocity Gradient (Meter per Second)
  29. y Specific Weight of Liquid (Newton per Cubic Meter)
  30. γ Specific Weight (Newton per Cubic Meter)
  31. γ1 Specific Weight 1 (Newton per Cubic Meter)
  32. η Efficiency
  33. μ Viscous Force head loss (Newton)
  34. μviscosity Dynamic Viscosity (Poise)
  35. σ Applied Stress (Pascal)

Constants, Functions and Measurements used in Pipes PDF

  1. Constant: pi, 3.14159265358979323846264338327950288
    Archimedes' constant
  2. Measurement: Length in Meter (m)
    Length Unit Conversion
  3. Measurement: Area in Square Meter (m²)
    Area Unit Conversion
  4. Measurement: Pressure in Pascal (Pa)
    Pressure Unit Conversion
  5. Measurement: Speed in Meter per Second (m/s)
    Speed Unit Conversion
  6. Measurement: Acceleration in Meter per Square Second (m/s²)
    Acceleration Unit Conversion
  7. Measurement: Energy in Joule (J)
    Energy Unit Conversion
  8. Measurement: Force in Newton (N)
    Force Unit Conversion
  9. Measurement: Volumetric Flow Rate in Cubic Meter per Second (m³/s)
    Volumetric Flow Rate Unit Conversion
  10. Measurement: Dynamic Viscosity in Poise (P)
    Dynamic Viscosity Unit Conversion
  11. Measurement: Specific Weight in Newton per Cubic Meter (N/m³)
    Specific Weight Unit Conversion

Free Pipes PDF

Get Free Pipes PDF for Download today. Examples are included after each Formula with a link to a live Calculator! All the Formulas and Calculators support Unit Conversion as well. This PDF features 12 calculators from Mechanical. Inside, you'll discover a list of formulas such as Viscous Stress, Viscous Force Per Unit Area and 12 more formulas!. The Variables, Functions and Constants are summarized at the end. Explore and share Pipes PDFs!

Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!