Gear Ratio
Tire Radius
MPH
RPM =
Engine size (cid)
Max RPM
Volumetric Efficiency *
CFM Needed =
* 1.0 is a good estimate for a mild performance engine
1/4 Mile Speed (mph)
Vehicle Weight (lbs.)
Horsepower
Liters
Cubic Inches
Bore
Stroke
# of Cylinders
CID=
Miles Travelled
Gallons Used
Miles Per Gallon
Kilometers Travelled
LitersUsed
Kms Per Liter
Enter Input Unit Type 1=inches 2=mm : Enter Bore size: Enter Stroke size: Enter Head Gasket Bore size: 4.100 is standard small block Enter Compressed Head Gasket Thickness: Enter Combustion Chamber Volume in CC's: add volume above top piston ring to this or this calculator will not be accurate Enter Piston Dome Volume in CC's use "-" for Dished Pistons: typically -2.3cc for 2 valve reliefs and -4.6cc for 4 valve reliefs for flat top pistons Enter Piston Deck Clearance If ABOVE deck use "-" : Compression Ratio: :1 Total Volume: cc
1/4 Mile to 1/8 Mile ET Conversion Enter your 1/8 Mile ET or 1/4 Mile ET
Enter your 1/8 ET:
Your 1/4 Mile ET is:
Enter your 1/4 ET:
Your 1/8 Mile ET is:
Enter the ¼ Mile ET or the 1/8 Mile ET andClick on Calculate...
FORMULA:¼ Mile ET = (1/8 Mile ET + .22) / .6551/8 Mile ET = (¼ Mile ET * .655) - .22
This document only works with JavaScript enabled browsers.
Enter 60 foot Time: 60 foot MPH:
Injector Flow Rate (lb/hr) =
Engine HP(1) x BSFC(2) Number of Injectors x Injector duty cycle(3)
Injector Flow Rate (cc/min) =
Engine HP(1) x BSFC(2) x 10.5 Number of Injectors x Injector duty cycle(3)
Fuel injectors max HP (lb/hr)* =
Injector flow rate x Number of injectors x 0.8 BSFC
Or
Fuel injectors max HP (cc/min)* =
Injector flow rate x Number of injectors x 0.8 BSFC x 10.5
Injector flow rate conversions:
Fuel injectors flow (lb/hr)* =
Fuel injector flow (cc/min) 10.5
Fuel injector flow (cc/min)* =
Fuel injectors flow (lb/hr) x 10.5
