Rear Roll Rate given Rear Lateral Load Transfer Solution

STEP 0: Pre-Calculation Summary
Formula Used
Rear Roll Rate = Front Roll Rate/(((Lateral Acceleration/[g]*Mass of Vehicle/Rear Track Width*Centre of Gravity Distance to Roll Axis)/(Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height))-1)
KΦr = KΦf/(((Ay/[g]*m/tr*H)/(Wr-a/b*Zrr))-1)
This formula uses 1 Constants, 10 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Variables Used
Rear Roll Rate - (Measured in Newton Meter per Radian) - Rear Roll Rate is the stiffness of your car in the roll mode. Or one can say, it is the roll angle per unit lateral acceleration.
Front Roll Rate - (Measured in Newton Meter per Radian) - Front Roll Rate is the stiffness of your car in the roll mode. Or one can say, it is the roll angle per unit lateral acceleration.
Lateral Acceleration - (Measured in Meter per Square Second) - Lateral Acceleration is the acceleration in the lateral direction when the vehicle is cornering.
Mass of Vehicle - (Measured in Kilogram) - Mass of Vehicle is the total mass of the vehicle.
Rear Track Width - (Measured in Meter) - Rear Track Width is the distance between the centres of the rear wheels.
Centre of Gravity Distance to Roll Axis - (Measured in Meter) - Centre of Gravity Distance to Roll Axis is the distance between the centre of gravity and the roll axis.
Rear Lateral Load Transfer - (Measured in Kilogram) - Rear Lateral Load Transfer is the load transfer in the rear wheels due to lateral acceleration.
Horizontal Distance of C.G. from Front Axle - (Measured in Meter) - Horizontal Distance of C.G. from Front Axle is the distance of vehicle's center of gravity(C.G.) form front axle measured along wheelbase of vehicle.
Wheelbase of Vehicle - (Measured in Meter) - Wheelbase of Vehicle is the center distance between the front and the rear axle of the vehicle.
Rear Roll Centre Height - (Measured in Meter) - Rear Roll Centre Height is the height of the notional point at which the cornering forces in the suspension are reacted to the vehicle body.
STEP 1: Convert Input(s) to Base Unit
Front Roll Rate: 94900 Newton Meter per Radian --> 94900 Newton Meter per Radian No Conversion Required
Lateral Acceleration: 9.81 Meter per Square Second --> 9.81 Meter per Square Second No Conversion Required
Mass of Vehicle: 155 Kilogram --> 155 Kilogram No Conversion Required
Rear Track Width: 1.4 Meter --> 1.4 Meter No Conversion Required
Centre of Gravity Distance to Roll Axis: 3.4907 Meter --> 3.4907 Meter No Conversion Required
Rear Lateral Load Transfer: 161.87 Kilogram --> 161.87 Kilogram No Conversion Required
Horizontal Distance of C.G. from Front Axle: 27 Meter --> 27 Meter No Conversion Required
Wheelbase of Vehicle: 2.7 Meter --> 2.7 Meter No Conversion Required
Rear Roll Centre Height: 0.0762 Meter --> 0.0762 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
KΦr = KΦf/(((Ay/[g]*m/tr*H)/(Wr-a/b*Zrr))-1) --> 94900/(((9.81/[g]*155/1.4*3.4907)/(161.87-27/2.7*0.0762))-1)
Evaluating ... ...
KΦr = 67802.7957128244
STEP 3: Convert Result to Output's Unit
67802.7957128244 Newton Meter per Radian --> No Conversion Required
FINAL ANSWER
67802.7957128244 67802.8 Newton Meter per Radian <-- Rear Roll Rate
(Calculation completed in 00.020 seconds)

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Rear Lateral Load Transfer Calculators

Lateral Acceleration given Rear Lateral Load Transfer
​ LaTeX ​ Go Lateral Acceleration = (Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height)/(1/[g]*Mass of Vehicle/Rear Track Width*Centre of Gravity Distance to Roll Axis*Rear Roll Rate/(Front Roll Rate+Rear Roll Rate))
Total Vehicle Mass given Rear Lateral Load Transfer
​ LaTeX ​ Go Mass of Vehicle = (Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height)/(Lateral Acceleration/[g]*1/Rear Track Width*Centre of Gravity Distance to Roll Axis*Rear Roll Rate/(Front Roll Rate+Rear Roll Rate))
Rear Track Width given Rear Lateral Load Transfer
​ LaTeX ​ Go Rear Track Width = (Lateral Acceleration/[g]*Mass of Vehicle*Centre of Gravity Distance to Roll Axis*Rear Roll Rate/(Front Roll Rate+Rear Roll Rate))/(Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height)
Rear Lateral Load Transfer
​ LaTeX ​ Go Rear Lateral Load Transfer = Lateral Acceleration/[g]*Mass of Vehicle/Rear Track Width*Centre of Gravity Distance to Roll Axis*Rear Roll Rate/(Front Roll Rate+Rear Roll Rate)+Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height

Rear Roll Rate given Rear Lateral Load Transfer Formula

​LaTeX ​Go
Rear Roll Rate = Front Roll Rate/(((Lateral Acceleration/[g]*Mass of Vehicle/Rear Track Width*Centre of Gravity Distance to Roll Axis)/(Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height))-1)
KΦr = KΦf/(((Ay/[g]*m/tr*H)/(Wr-a/b*Zrr))-1)

How does lateral load transfer occur?

Lateral load transfer occurs during cornering and is the shift of mass across the wheels due to the centrifugal force and the lateral acceleration. When a car is cornering it creates a force called centrifugal force. This force works against the lateral acceleration which is created by the grip from the tyres known as the tyre cornering forces.

What are the three mechanisms of lateral load transfer?

Lateral Load Transfer from Unsprung Mass: The simplest component of load transfer. If unsprung mass is isolated, it’s possible to find its own CG. When the car corners, lateral acceleration is applied at this CG, generating a centrifugal force which will result in a moment, that can be divided by the axle track to yield a lateral load transfer component.; Load Transfer from Direct Lateral Force (Kinematic Load Transfer Component): It is one of the two components related to the lateral force acting upon the sprung mass. It arises from the force coupling effect that roll centres have, directly linking forces on sprung mass to the unsprung mass.; Load Transfer Due to Roll Angle (Elastic Load Transfer Component): During spring displacements, a force on each spring arises, and these forces generate a moment that tends to resist the rotation of the body. These forces are reacted by the tyres, and that contributes to lateral load transfer. This component is also referred as the elastic weight transfer component.

How to Calculate Rear Roll Rate given Rear Lateral Load Transfer?

Rear Roll Rate given Rear Lateral Load Transfer calculator uses Rear Roll Rate = Front Roll Rate/(((Lateral Acceleration/[g]*Mass of Vehicle/Rear Track Width*Centre of Gravity Distance to Roll Axis)/(Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height))-1) to calculate the Rear Roll Rate, The Rear roll rate given rear lateral load transfer formula is used to find the roll rate of rear suspension which is the stiffness of the rear suspension in roll mode. Rear Roll Rate is denoted by KΦr symbol.

How to calculate Rear Roll Rate given Rear Lateral Load Transfer using this online calculator? To use this online calculator for Rear Roll Rate given Rear Lateral Load Transfer, enter Front Roll Rate (KΦf), Lateral Acceleration (Ay), Mass of Vehicle (m), Rear Track Width (tr), Centre of Gravity Distance to Roll Axis (H), Rear Lateral Load Transfer (Wr), Horizontal Distance of C.G. from Front Axle (a), Wheelbase of Vehicle (b) & Rear Roll Centre Height (Zrr) and hit the calculate button. Here is how the Rear Roll Rate given Rear Lateral Load Transfer calculation can be explained with given input values -> 67494.5 = 94900/(((9.81/[g]*155/1.4*3.4907)/(161.87-27/2.7*0.0762))-1).

FAQ

What is Rear Roll Rate given Rear Lateral Load Transfer?
The Rear roll rate given rear lateral load transfer formula is used to find the roll rate of rear suspension which is the stiffness of the rear suspension in roll mode and is represented as KΦr = KΦf/(((Ay/[g]*m/tr*H)/(Wr-a/b*Zrr))-1) or Rear Roll Rate = Front Roll Rate/(((Lateral Acceleration/[g]*Mass of Vehicle/Rear Track Width*Centre of Gravity Distance to Roll Axis)/(Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height))-1). Front Roll Rate is the stiffness of your car in the roll mode. Or one can say, it is the roll angle per unit lateral acceleration, Lateral Acceleration is the acceleration in the lateral direction when the vehicle is cornering, Mass of Vehicle is the total mass of the vehicle, Rear Track Width is the distance between the centres of the rear wheels, Centre of Gravity Distance to Roll Axis is the distance between the centre of gravity and the roll axis, Rear Lateral Load Transfer is the load transfer in the rear wheels due to lateral acceleration, Horizontal Distance of C.G. from Front Axle is the distance of vehicle's center of gravity(C.G.) form front axle measured along wheelbase of vehicle, Wheelbase of Vehicle is the center distance between the front and the rear axle of the vehicle & Rear Roll Centre Height is the height of the notional point at which the cornering forces in the suspension are reacted to the vehicle body.
How to calculate Rear Roll Rate given Rear Lateral Load Transfer?
The Rear roll rate given rear lateral load transfer formula is used to find the roll rate of rear suspension which is the stiffness of the rear suspension in roll mode is calculated using Rear Roll Rate = Front Roll Rate/(((Lateral Acceleration/[g]*Mass of Vehicle/Rear Track Width*Centre of Gravity Distance to Roll Axis)/(Rear Lateral Load Transfer-Horizontal Distance of C.G. from Front Axle/Wheelbase of Vehicle*Rear Roll Centre Height))-1). To calculate Rear Roll Rate given Rear Lateral Load Transfer, you need Front Roll Rate (KΦf), Lateral Acceleration (Ay), Mass of Vehicle (m), Rear Track Width (tr), Centre of Gravity Distance to Roll Axis (H), Rear Lateral Load Transfer (Wr), Horizontal Distance of C.G. from Front Axle (a), Wheelbase of Vehicle (b) & Rear Roll Centre Height (Zrr). With our tool, you need to enter the respective value for Front Roll Rate, Lateral Acceleration, Mass of Vehicle, Rear Track Width, Centre of Gravity Distance to Roll Axis, Rear Lateral Load Transfer, Horizontal Distance of C.G. from Front Axle, Wheelbase of Vehicle & Rear Roll Centre Height and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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