Other formulas, Engineering constants, Calculating accelerating force for linear motion – Rockwell Automation 150 MNL/SMC DIALOG+/APP-PROD GUIDE User Manual

Reference

10-19

Other Formulas

Calculating Accelerating Force for Linear Motion:

Where:

F = Force (lbs.)

W = Weight (lb.)

D

V = Change in Velocity (FPM)

t = Time to accelerate weight (seconds)

Where:

LRA = Locked Rotor Amperes

HP = Horsepower

kVA = Kilovolt-Amperes

E = EMF or Voltage (Volts)

Where:

60 Hz LRA = Locked Rotor Amperes

Freq. X = Desired frequency (Hz)

Engineering Constants

Temperature

0° C = Freezing point of wate
32° F = Freezing point of water = ° C
10 ° C = Boiling point of water at atmospheric pressure
21 ° F = Boiling point of water at atmospheric pressure
1.8 ° WF = 1 ° WC
0.252 Calories = 1 BTU
–270 ° C = Absolute zero
–459.6 ° F = Absolute zero

Length

1,760 Yards = 1 Mile
25.4 mm = 2.54 cm = 1 in.
3 ft. = 1 Yard
3.2808 ft. = 1 m
39.37 in. = 1 m = 100 cm = 1000 mm
5,280 ft. = 1 Mile
0.62137 Miles = 1 km

F (Acceleration)

W

∆

V

×

1,93

3t

×

-------------------

=

LRA

HP

Start kVA

HP

------------------









Ч

1,00

Ч

E

1.73

×

------------------------------------------------------

=

LRA @ Freq. X

60 Hz LR

60

Freq. X

--------------

---------------------

=