Slope of Road using Retardation on Front Wheel Solution

STEP 0: Pre-Calculation Summary
Formula Used
Road Inclination Angle BFW = acos(Braking Retardation BFW/([g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW)/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW)))
θ = acos(a/([g]*(μ*x)/(b-μ*h)))
This formula uses 1 Constants, 2 Functions, 6 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Functions Used
cos - Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle., cos(Angle)
acos - The inverse cosine function, is the inverse function of the cosine function. It is the function that takes a ratio as an input and returns the angle whose cosine is equal to that ratio., acos(Number)
Variables Used
Road Inclination Angle BFW - (Measured in Radian) - Road Inclination Angle BFW of Road is the angle which the road surface is making with the horizontal.
Braking Retardation BFW - (Measured in Meter per Square Second) - Braking Retardation BFW is the negative acceleration of the vehicle which reduces its speed.
Friction Coefficient between Wheels and Ground BFW - Friction Coefficient between Wheels and Ground BFW is the friction coefficient which is generated between wheels and ground when the brakes are applied.
Horizontal Distance of C.G. from Rear Axle BFW - (Measured in Meter) - Horizontal Distance of C.G. from rear Axle BFW is the distance of vehicle's center of gravity (C.G.) form rear axle measured along wheelbase of vehicle.
Vehicle Wheelbase BFW - (Measured in Meter) - Vehicle Wheelbase BFW is the center distance between the front and the rear axle of the vehicle.
Height of C.G. of Vehicle BFW - (Measured in Meter) - Height of C.G. of Vehicle BFW is the theoretical point where the sum of all of the masses of each of its individual components effectively act.
STEP 1: Convert Input(s) to Base Unit
Braking Retardation BFW: 3.019 Meter per Square Second --> 3.019 Meter per Square Second No Conversion Required
Friction Coefficient between Wheels and Ground BFW: 0.58 --> No Conversion Required
Horizontal Distance of C.G. from Rear Axle BFW: 1.3 Meter --> 1.3 Meter No Conversion Required
Vehicle Wheelbase BFW: 2.4 Meter --> 2.4 Meter No Conversion Required
Height of C.G. of Vehicle BFW: 0.0075 Meter --> 0.0075 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
θ = acos(a/([g]*(μ*x)/(b-μ*h))) --> acos(3.019/([g]*(0.58*1.3)/(2.4-0.58*0.0075)))
Evaluating ... ...
θ = 0.209547091509948
STEP 3: Convert Result to Output's Unit
0.209547091509948 Radian -->12.0061639527639 Degree (Check conversion here)
FINAL ANSWER
12.0061639527639 12.00616 Degree <-- Road Inclination Angle BFW
(Calculation completed in 00.004 seconds)

Credits

National Institute of Technology Calicut (NIT Calicut), Calicut, Kerala
Peri Krishna Karthik has created this Calculator and 200+ more calculators!
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national institute of technology hamirpur (NITH ), hamirpur , himachal pradesh
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6 Effects due to Retardation Calculators

Slope of Road using Retardation on Front Wheel
Go Road Inclination Angle BFW = acos(Braking Retardation BFW/([g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW)/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW)))
Horizontal Distance of C.G. from Rear Axle using Retardation on Front Wheel
Go Horizontal Distance of C.G. from Rear Axle BFW = Braking Retardation BFW/([g]*(Friction Coefficient between Wheels and Ground BFW*cos(Road Inclination Angle BFW))/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW))
Height of C.G. using Retardation on Front Wheel
Go Height of C.G. of Vehicle BFW = (Vehicle Wheelbase BFW-[g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW*cos(Road Inclination Angle BFW)/Braking Retardation BFW))/Friction Coefficient between Wheels and Ground BFW
Braking Retardation on Front Wheel
Go Braking Retardation BFW = [g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW*cos(Road Inclination Angle BFW))/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW)
Vehicle Wheel Base using Retardation on Front Wheel
Go Vehicle Wheelbase BFW = [g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW*cos(Road Inclination Angle BFW))/Braking Retardation BFW+Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW
Friction Coefficient between Wheels and Road Surface using Retardation on Front Wheel
Go Friction Coefficient between Wheels and Ground BFW = Braking Retardation BFW*Vehicle Wheelbase BFW/([g]*Horizontal Distance of C.G. from Rear Axle BFW*cos(Road Inclination Angle BFW)+Braking Retardation BFW*Height of C.G. of Vehicle BFW)

Slope of Road using Retardation on Front Wheel Formula

Road Inclination Angle BFW = acos(Braking Retardation BFW/([g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW)/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW)))
θ = acos(a/([g]*(μ*x)/(b-μ*h)))

How weight transfer occurs during braking?

The inertial force acts at the centre of gravity of the vehicle, while the retarding force due to the application of brakes acts at the road surface. These two forms an overturning couple. This overturning couple increases the perpendicular force between the front wheels and ground by an amount, while the perpendicular force between rear wheels and ground is decreased by an equal amount. Some of the vehicle weight is thus transferred from the rear to the front axle.

Braking distribution among front and rear brakes

It is observed that in vehicles either the distribution of weight over the two axles is equal, or the front axle carries more weight, the braking effect has to be more at the front wheels for efficient braking. It is seen that in general for achieving maximum efficiency, about 75% of the total braking effect should be on front wheels. However, in such case the trouble would arise while travelling over wet road. where hight braking effect at the front would cause skidding of front wheels, because of decrease of weight transfer. In practice, about 60% of the braking effort is applied on the front wheels.

How to Calculate Slope of Road using Retardation on Front Wheel?

Slope of Road using Retardation on Front Wheel calculator uses Road Inclination Angle BFW = acos(Braking Retardation BFW/([g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW)/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW))) to calculate the Road Inclination Angle BFW, Slope of Road using Retardation on Front Wheel formula is used to find the inclination of the road surface with the horizontal. Road Inclination Angle BFW is denoted by θ symbol.

How to calculate Slope of Road using Retardation on Front Wheel using this online calculator? To use this online calculator for Slope of Road using Retardation on Front Wheel, enter Braking Retardation BFW (a), Friction Coefficient between Wheels and Ground BFW (μ), Horizontal Distance of C.G. from Rear Axle BFW (x), Vehicle Wheelbase BFW (b) & Height of C.G. of Vehicle BFW (h) and hit the calculate button. Here is how the Slope of Road using Retardation on Front Wheel calculation can be explained with given input values -> 3514.92 = acos(3.019/([g]*(0.58*1.3)/(2.4-0.58*0.0075))).

FAQ

What is Slope of Road using Retardation on Front Wheel?
Slope of Road using Retardation on Front Wheel formula is used to find the inclination of the road surface with the horizontal and is represented as θ = acos(a/([g]*(μ*x)/(b-μ*h))) or Road Inclination Angle BFW = acos(Braking Retardation BFW/([g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW)/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW))). Braking Retardation BFW is the negative acceleration of the vehicle which reduces its speed, Friction Coefficient between Wheels and Ground BFW is the friction coefficient which is generated between wheels and ground when the brakes are applied, Horizontal Distance of C.G. from rear Axle BFW is the distance of vehicle's center of gravity (C.G.) form rear axle measured along wheelbase of vehicle, Vehicle Wheelbase BFW is the center distance between the front and the rear axle of the vehicle & Height of C.G. of Vehicle BFW is the theoretical point where the sum of all of the masses of each of its individual components effectively act.
How to calculate Slope of Road using Retardation on Front Wheel?
Slope of Road using Retardation on Front Wheel formula is used to find the inclination of the road surface with the horizontal is calculated using Road Inclination Angle BFW = acos(Braking Retardation BFW/([g]*(Friction Coefficient between Wheels and Ground BFW*Horizontal Distance of C.G. from Rear Axle BFW)/(Vehicle Wheelbase BFW-Friction Coefficient between Wheels and Ground BFW*Height of C.G. of Vehicle BFW))). To calculate Slope of Road using Retardation on Front Wheel, you need Braking Retardation BFW (a), Friction Coefficient between Wheels and Ground BFW (μ), Horizontal Distance of C.G. from Rear Axle BFW (x), Vehicle Wheelbase BFW (b) & Height of C.G. of Vehicle BFW (h). With our tool, you need to enter the respective value for Braking Retardation BFW, Friction Coefficient between Wheels and Ground BFW, Horizontal Distance of C.G. from Rear Axle BFW, Vehicle Wheelbase BFW & Height of C.G. of Vehicle BFW 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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