Car Math. Calculate anything!
If ya ever wanted to caluclate ANYTHING from gearing to Wheel HP, check out [URL="http://www.smokemup.com/auto_math/index.php"]SmokeEmUp.com[/URL]!
Here are some of the calculations you can do online there: [QUOTE]Air Flow / Fuel Flow  This calculation will determine the amount of air and fuel flow for a specified RPM. You can use this calculation to determine carburetor sizing if you enter the maximum RPM. Fuel Injector Sizing  This calculation determines injector size based on max horsepower and number of cylinders Fuel Injector Sizing 2  This calculation determines the amount of horsepower an injector will support. Fuel Injector Flow Pressure Change  This calculation determines the amount of flow a fuel injector will change with a change in fuel pressure. Intercooler Efficiency  This calculator will determine your intercooler efficiency. You'll need to know the ambient air temperature, Intercooler Inlet Air Temp, and Intercooler Outlet Air Temp. The result will be the efficiency of the intercooler. Engine Building Cam Timing Events  This calculation will determine the valve events for a camshaft based on published camshaft duration specifications. Inputs are camshaft duration @ 0.05" lift or advertised duration, lobe separation, and intake centerline. Calculate Advertised Intake Valve Closing ABDC  This calculation will determine the advertised intake valve closing point needed for calculating dynamic compression ratio, DCR. Sometimes cam companies only publish 0.050" valve timing events. The Intake valve closing event ABDC is crucial in determining DCR for your engine. Compression Ratio  This calculation will determine your engine's compression ratio. You need to know the bore, stroke, cylinder head volume, deck height, head gasket bore, head gasket thickness, and piston dish volume. The result is a very accurate compression ratio calculation. Dynamic Compression Ratio  This calculation will determine your engine's dynamic compression ratio. This calculation has all the information from the previous compression calculation but includes cam timing. This will allow you to determine the dynamic compression ratio based on the intake valve timing. Pressure Ratio  This calculation will determine your engine's pressure ratio. You need to have tested your engine's compression with a compression tester and the barometric test pressure. The result will be the pressure ratio of your engine. This can be compared to the actual compression ratio of your engine. Compression Tester Gauge Reading  This calculation will determine a "ballpark" reading for your compression tester based on your engine's compression ratio. You need to know the compression ratio of the engine and barometric test pressure and the calculation will return a number your engine should read on a compression tester gauge. Cylinder Head Volume  Trying to figure out which cylinder head volume will give the right compression ratio for your motor. Use this calculation to determine the chamber volume of a cylinder head by entering your desired compression ratio, bore, stroke, deck height, head gasket bore, head gasket thickness, and piston dish volume. Piston Volume  Use this calculator to compute the piston dish / dome volume. Enter the the cylinder bore, depth of the piston in the bore, and the measured volume. The result is a very accurate piston volume measurement. Piston Speed  Use this calculator to compute the average piston speed and the maximum acceleration of the piston. Enter the engine stroke and connecting rod length. Engine Displacement  This calculation will determine the displacement of your motor in cubic inches and in liters. Just enter the bore, stroke, and number of cylinders. Effective Compression Ratio  This calculation will determine the effective compression ratio from the static compression ratio and the amount of boost from your supercharger or turbocharger. Gearing Rear End Gear Ratio  Not sure what rear end gear ratio you have in your car? Try this calculation and it should give you an idea of your gear ratio in the rear end. You need to know the rpm's of the motor at a certain speed as indicated by your speedometer. Speed for RPM range  This formula will calculate the speed of the vehicle at a RPM. You enter your tire diameter and your rear end gear ratio and it will display vehicle speed an RPM range from 1000  8000 RPM. Speed for RPM range comparing rear gears  This calculation will display two tables with mph vs rpm range for two different gear ratios. It's handy for comparing different speeds for two different gear ratios. In other words how will changing my stock 2.73 gears to 4.11's effect my cruising speed. Same as Speed for RPM range below except with an additional gear ratio input. Tire diameter  This formula will calculate the tire diameter from the tread width, series, and wheel diameter. In other words the stamping on the tire, example 275 60R15. Horsepower HP from 1/4 mi ET  This formula will calculate HP using the elapsed time (ET) from a 1/4 mi time slip. HP from 1/4 mi MPH  This formula will calculate HP using the MPH from a 1/4 mi time slip. HP from 1/8 mi MPH  Don't have a 1/4 mi dragstrip in your area but have 1/8 mi timeslips. Then use this formula to calculate HP using the MPH from a 1/8 mi time slip. Trap speed & ET from Wheel HP  If you know the weight of your car (with you in it) and know the peak wheel HP as measured by a chassis dyno this calculation will estimate the trap speed in MPH and the Elapsed Time (ET) in the quarter mile. Wind drag HP  Determine the amount of HP is required to over come the wind drag for a certain speed. All you need to know is the front area and drag coefficient of your car. Launch G Force  This calculation will tell you how many G's your pulling off the line and your speed at 60'. All you need is a timeslip with a 60' time. Weather Calculate Density Altitude 1  The density of air changes which in turn affects the HP generated by an internal combustion engine. Density altitude is defined as: The altitude in the international standard atmosphere at which the air density would be equal to the actual air density at the place of observation. "Density Altitude" is the pressure altitude adjusted for nonstandard temperature. Both increase in temperature and increase in humidity cause a reduction in air density. Thus in hot and humid conditions the density altitude at a particular location may be significantly higher than the geometric altitude. Calculate Density Altitude 2  Density altitude calculated from Altimeter setting, temperature, altitude, and dew point. Correct 1/4 mi. Timeslip to Sea Level  The density of air changes which in turn affects the HP generated by an internal combustion engine. Use this calculator to correct your timeslips based on the density altitude (DA) to sea level. Correct 1/4 mi. Timeslip to New Density Altitude  Correct a timeslip from one density altitude to another density altitude. Very handy when comparing timeslips. Correct 1/4 mi. Timeslip with Density Altitude Auto Lookup  To use this calculator enter the date, time, select dragstrip, ET, and trap speed. This calculator will look up the weather information for the date you entered from the closest airport to the dragstrip you select. Based on these weather conditions the calculator will calculate the density altitude and correct the timeslip to sea level. NHRA Correction Factors  This is not a calculation but a table you can use to correct your timeslips to sea level if you run at a track where the air is thin.[/QUOTE] 
Re: Car Math. Calculate anything!
thanks but you forgot this
[QUOTE]Paid Subscription Required for all calculators.[/QUOTE] 
Re: Car Math. Calculate anything!
CRUD! I didn't see that. Jussa sec... I know site that IS free... BRB.

Re: Car Math. Calculate anything!
Here, this should make up for that:
1/4 mile ET = 1/8 mile ET x 1.5832 1/8 mile ET = 1/4 mile ET / 1.5832 1/4 mile ET = ((Weight / HP)^.333) * 5.825 1/4 mile MPH = ((HP / Weight)^.333) * 234 HP = (Weight / ((ET/5.825)^3)) HP = (((MPH / 234)^3) * Weight) NOTE: pi/4 = 0.7853982 cylinder volume = pi/4 x bore^2 x stroke stroke = displacement / (pi/4 x bore^2 x number of cylinders) compression ratio = (CylVolume + ChamberVolume) / ChamberVolume cylinder volume = pi/4 x bore^2 x stroke chamber volume = cylinder volume / compression ratio  1.0 displacement ratio = cylinder volume / chamber volume amount to mill = (new disp. ratio  old disp. ratio / new disp. ratio x old disp. ratio) x stroke piston speed in fpm = stroke in inches x rpm / 6 rpm = piston speed in fpm x 6 / stroke in inches horsepower = rpm x torque / 5252 torque = 5252 x horsepower / rpm theoretical cfm = rpm x displacement / 3456 volumetric efficiency = actual cfm / theoretical cfm x 100 street carb cfm = rpm x displacement / 3456 x 0.85 racing carb cfm = rpm x displacement / 3456 x 1.1 effective ratio = (old tire diameter / new tire diameter) x original ratio actual mph = (new tire diameter / old tire diameter) x actual mph drive wheel torque = flywheel torque x first gear x final drive x 0.85 wheel thrust = drive wheel torque / rolling radius g = wheel thrust / weight weight transfer = weight x cg height / wheelbase x g lateral acceleration = 1.227 x raduis / time^2 lateral weight transfer = weight x cg height / wheel track x g centrufugal force = weight x g rpm after shift = ratio shift into / ratio shift from x rpm before shift driveshaft torque = flywheel torque x transmission ratio actual mph = 3600 / seconds per mile speedometer error percent = difference between actual and indicated speed / actual speed x 100 indicated distance = odometer reading at finish  odometer reading at start odometer error percent = difference between actual and indicated distances / actual distance x 100 mph = (rpm x tire diameter) / (gear ratio x 336) rpm = (mph x gear ratio x 336) / tire daimeter gear ratio = (rpm x tire diameter) / (mph x 336) tire diameter = (mph x gear ratio x 336) / rpm percent of weight on wheels = weight on wheels / overweight x 100 increased weight on wheels = [ distance of cg from wheels / wheelbase x weight ] + weight center of gravity behind front wheels = rear wheel weights / overall weight x wheelbase center of gravity offcenter to heavy side = track / 2  [ weight on light side / overall weight ] x track cg height = [ level wheelbase x raised wheelbase x added weight on scale / distance raised ] x overall weight 
Re: Car Math. Calculate anything!
That's nice, but please state what all abbreviations mean.

Re: Car Math. Calculate anything!
ET = Elapsed Time
HP = Horse Power pi = 3.1416 fpm = feet per minute rpm = revolutions per minute cfm = cubic feet per minute mph = miles per hour g = the force of gravity cg = center of gravity Anything else? 
Re: Car Math. Calculate anything!
There are some more good stuff at [URL="http://www.7387.com/convers_calcus/equation1.htm"]http://www.7387.com/convers_calcus/equation1.htm[/URL] and [URL="http://www.csgnetwork.com/automotiveconverters.html"]http://www.csgnetwork.com/automotiveconverters.html[/URL] that are useful.

Re: Car Math. Calculate anything!
you forgot crankshaft angles :D

Re: Car Math. Calculate anything!
cool!

Re: Car Math. Calculate anything!
SmokeEmup.com is a really good website to calculate anything. I just checked it and liked.

Re: Car Math. Calculate anything!
That looks amazing. I don't even care if there's a subscription if it's a decent website like that.

All times are GMT 5. The time now is 11:09 AM. 
Powered by vBulletin® Version 3.8.9
Copyright ©2000  2018, vBulletin Solutions, Inc.
SaturnFans.com. The Saturn Enthusiasts Site.