How Do You Calculate a Car's Center of Gravity Height?

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SUMMARY

The discussion focuses on calculating a car's center of gravity (CG) height, specifically for a drive brake system. Key parameters provided include the car's dimensions (Height: 2740 mm, Width: 2060 mm, Length: 7080 mm), weight (4160 Kg), and axle weights (Front: 2130 Kg, Rear: 2030 Kg). To accurately determine the CG height, participants suggest using aggregate weights and individual CG locations, applying the formula x=(m1x1+m2x2)/(m1+m2) for calculations. Additionally, practical methods such as measuring from the pavement to the camshaft and using scales under the rear wheels are recommended for approximation.

PREREQUISITES
  • Understanding of vehicle dynamics and weight distribution
  • Familiarity with basic physics concepts related to center of gravity
  • Knowledge of measurement techniques for vehicle dimensions
  • Ability to apply mathematical formulas for CG calculations
NEXT STEPS
  • Research "Center of Gravity Calculation Techniques" for vehicles
  • Learn about "Vehicle Dynamics and Suspension Systems" for better understanding
  • Explore "Mathematical Formulas for CG in Physics" for foundational knowledge
  • Investigate "Practical Measurement Methods for Vehicle Weight Distribution" for hands-on techniques
USEFUL FOR

Automotive engineers, race car designers, and students studying vehicle dynamics will benefit from this discussion, particularly those involved in calculating and optimizing vehicle performance through center of gravity analysis.

Vipcanabis
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Hi, I am calculating about Drive Brake system. Now I am stuck at Hg (I mean car's center gravity of height), I just don't know how to calculate it.
Will anybody help me ? I am really need it
I look forward to your reply
Best Regards,
 
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if the shape of the car is simple like a double box car or box type sedan then simply divide the car in three sections of front , middle and rear, choose an origin. Further it is a basic problem
 
see old post Jul22-09, 11:03 AM

Race car suspension Class
 
Vipcanabis said:
I just don't know how to calculate it.

What don't you know? Measuring the CG height on an actual vehicle or estimating the CG height of your concept car from drawings or maybe even something else.
 
Ok, here I got :
Height x Width x Length = 2740 x 2060 x 7080 (mm) = 107,874 x 81,1 x 278,74 (Inch)
wheelbase = 4085 (mm) = 160,83 (Inch)
Car weight (no load) = 4160 (Kg) = 9152 (lbs)
Front Axle weight = 2130 (Kg) = 4686 (lbs)
Rear Axle weight = 2030 (Kg) = 4466 (lbs)

So, can you help me calculate the Car center of gravity of height (y-axis). I am thanks so much !
Thanks for interesting and helping me
 
Vipcanabis said:
Ok, here I got :
Height x Width x Length = 2740 x 2060 x 7080 (mm) = 107,874 x 81,1 x 278,74 (Inch)
wheelbase = 4085 (mm) = 160,83 (Inch)
Car weight (no load) = 4160 (Kg) = 9152 (lbs)
Front Axle weight = 2130 (Kg) = 4686 (lbs)
Rear Axle weight = 2030 (Kg) = 4466 (lbs)

So, can you help me calculate the Car center of gravity of height (y-axis). I am thanks so much !
Thanks for interesting and helping me

With these numbers, it's impossible to determine exactly. Best guess would be somewhere between one third and one half of the height of your car (which seems really tall!).
 
So, what do I need to determine exactly the CG height ? Please help, just a little more. I got the most specification of the car
 
Get the all aggregate weights.Locate their indiviusal CGs in the car. Then you can easily calulate the CG position by simple CG formula x=(m1x1+m2x2)/(m1+m2) similarly y and z.
Hope it will help you.
 
i recommend the old racers trick of measuring the height from pavement to center of the camshaft and measure height from pavement to center of rear axle hub
draw a line from camshaft center to rear axle center line ( between the two axles) this is good approximation of mass centroid going thru the vehicle ..the other method is to use scales under the rear wheels and jack up the from end at least 30 inches ..this requires scales and if you have access, i can give you formula..i wrote more in other posts. last year
 

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