Where can i get more info on this formula? (trailer towing force)

In summary, the equation for rolling resistance is:F = Weight (normal) * Friction coefficient * Diameter of axle / Diameter of wheelx4 cause the trailer has 4 wheels.
  • #1
AviationFanBoy
15
0
I need to use this formula for a physics prac (my dad an engineer told me it).
F = Weight (normal) x friction coefficient x diatmer of axle)/diamter of wheel
x4 cause the trailer has 4 wheels.

Can anybody point me towards a source of info on it, in particular the derivation.
I use it to calculate the tension force acting between a truck and a trailer.
 
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  • #2
That looks similar to the equation for rolling resistance, but I'm not seeing the diameter of the axle in the equation in any of the sources I've looked at. You could try searching google for rolling resistance and see if you can find something I missed.
 
  • #3
I have not seen that formula either, but I want to point out that if the trailer is being pulled by a truck on level ground, the pulling force on the trailer without slippage of the tires does not depend directly on static or kinetic friction but rather on rolling resistance and axle bearing friction. The formula your dad sites might be an empirical formula based on tests. For example, if the diameter ratio is 1/12 and static friction coefficient rubber on pavement is 0.6, then equivalent resistance coefficient is 0.05 which might be in the ballpark, and the pull force at constant speed is 0.05 W times 4, where W is the weight on each tire. Of course, if you had my old Columbia bike with lousy tires and worn bearings, that value would go way up. Just guessing here, though.
 
  • #4
I think the formulae makes sense if "friction coefficient" refers to the bearing friction. I think that would explain the inclusion of the ratio axel/wheel diameter.

However to that force you also need to add other forces such as that due to rolling resistance and air drag.
 
  • #5
Just to explain what I mean...

If you assume constant angular velocity then the net torque sums to zero. So if the bearing or axle friction acts clockwise then friction between wheel and ground must act anticlockwise. These two torques must sum to zero.

(Faxle * Raxle) - (Fwheel * Rwheel) = 0

Likewise the linear forces must also sum to zero so

Ftowing - Fwheel = 0

If you rearrange that lot you should get the original equation.

Towing.jpg
 
Last edited:

1. What is the formula for calculating trailer towing force?

The formula for calculating trailer towing force is: T = (m × g × sinθ) + (½ × ρ × Cd × A × v2), where T is the towing force, m is the mass of the trailer, g is the acceleration due to gravity, θ is the angle of the incline, ρ is the air density, Cd is the drag coefficient, A is the frontal area of the trailer, and v is the velocity of the trailer.

2. Where can I find more information about the variables used in the formula?

You can find more information about the variables used in the formula by consulting a physics or engineering textbook, or by conducting a quick online search for each variable.

3. How do I know if I am using the correct values for the variables in the formula?

You can ensure that you are using the correct values for the variables by double-checking your calculations and consulting reliable sources for the values of each variable. It is also important to make sure that all units are consistent throughout the formula.

4. Can I use this formula for any type of trailer?

This formula can be used for most types of trailers, as long as the variables are adjusted accordingly. However, it is always best to consult a professional or conduct additional research to ensure accuracy.

5. Are there any other factors that may affect the towing force besides the variables in the formula?

Yes, there are other factors that may affect towing force, such as road conditions, wind speed, and the condition of the trailer and towing vehicle. It is important to consider these factors and make necessary adjustments when using the formula.

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