Brake Fluid Pressure Solution

STEP 0: Pre-Calculation Summary
Formula Used
Brake Fluid Pressure = Force Produced by Master Cylinder/Area of Master Cylinder Piston
P = Fcyl/A
This formula uses 3 Variables
Variables Used
Brake Fluid Pressure - (Measured in Pascal) - Brake Fluid Pressure is defined as the pressure acting on the brake fluid when brake force is applied by the master cylinder piston movement.
Force Produced by Master Cylinder - (Measured in Newton) - Force Produced by Master Cylinder is defined as the force acting on the brake fluid in the master cylinder.
Area of Master Cylinder Piston - (Measured in Square Meter) - Area of Master Cylinder Piston is defined as the area that is covered by the piston of the master cylinder when force is applied on the piston.
STEP 1: Convert Input(s) to Base Unit
Force Produced by Master Cylinder: 500 Newton --> 500 Newton No Conversion Required
Area of Master Cylinder Piston: 0.03 Square Meter --> 0.03 Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P = Fcyl/A --> 500/0.03
Evaluating ... ...
P = 16666.6666666667
STEP 3: Convert Result to Output's Unit
16666.6666666667 Pascal -->16666.6666666667 Newton per Square Meter (Check conversion here)
FINAL ANSWER
16666.6666666667 16666.67 Newton per Square Meter <-- Brake Fluid Pressure
(Calculation completed in 00.004 seconds)

Credits

Created by Syed Adnan
Ramaiah University of Applied Sciences (RUAS), bangalore
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National Institute Of Technology (NIT), Hamirpur
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12 Wheel Centre Rates for Independent Suspension Calculators

Assumed Initial Roll Rate given Required Anti-Roll Bar Rate
Go Assumed Initial Roll Rate = (Required Anti Roll Bar Rate+Wheel Centre Rate*(Track Width of Vehicle^2)/2)*(Tyre Vertical Rate*(Track Width of Vehicle^2)/2)/(Tyre Vertical Rate*(Track Width of Vehicle^2)/2+Required Anti Roll Bar Rate+Wheel Centre Rate*(Track Width of Vehicle^2)/2)
Tyre Rate given Required Anti-Roll Bar Rate
Go Tyre Vertical Rate = (((Required Anti Roll Bar Rate+Wheel Centre Rate*(Track Width of Vehicle^2)/2)*Assumed Initial Roll Rate)/((Required Anti Roll Bar Rate+Wheel Centre Rate*(Track Width of Vehicle^2)/2)-Assumed Initial Roll Rate))*2/Track Width of Vehicle^2
Wheel Centre Rate given Required Anti-Roll Bar Rate
Go Wheel Centre Rate = (Assumed Initial Roll Rate*(Tyre Vertical Rate*(Track Width of Vehicle^2)/2)/(Tyre Vertical Rate*(Track Width of Vehicle^2)/2-Assumed Initial Roll Rate)-Required Anti Roll Bar Rate)/((Track Width of Vehicle^2)/2)
Required Anti-Roll Bar Rate
Go Required Anti Roll Bar Rate = Assumed Initial Roll Rate*(Tyre Vertical Rate*(Track Width of Vehicle^2)/2)/(Tyre Vertical Rate*(Track Width of Vehicle^2)/2-Assumed Initial Roll Rate)-Wheel Centre Rate*(Track Width of Vehicle^2)/2
Power Absorbed by Disc Brake
Go Power Absorbed by Disc Brake = 2*Line Pressure*Area of One Piston per Caliper*Coefficient of Friction of Pad Material*Mean Radius of Caliper unit to Disc Axis*Number of Caliper Units*2*Number of Caliper Units*Revolution of Discs per Minute/60
Area of Brake Lining
Go Area of Brake Lining = (Brake Lining Width*Brake Drum Radius*Angle between Linings of Brake Shoes*pi)/180
Ride Rate given Wheel Centre Rate
Go Ride Rate = (Tyre Vertical Rate*Wheel Centre Rate)/(Tyre Vertical Rate+Wheel Centre Rate)
Wheel Centre Rate
Go Wheel Centre Rate = (Ride Rate*Tyre Vertical Rate)/(Tyre Vertical Rate-Ride Rate)
Tyre Vertical Rate given Wheel Centre Rate
Go Tyre Vertical Rate = (Wheel Centre Rate*Ride Rate)/(Wheel Centre Rate-Ride Rate)
Work Done in Braking
Go Work done in Braking = Braking Force on Brake Drum*Stopping Distance during Braking in Meters
Brake Fluid Pressure
Go Brake Fluid Pressure = Force Produced by Master Cylinder/Area of Master Cylinder Piston
Braking Efficiency
Go Braking Efficiency = (Braking Force on Brake Drum/Weight of Vehicle)*100

Brake Fluid Pressure Formula

Brake Fluid Pressure = Force Produced by Master Cylinder/Area of Master Cylinder Piston
P = Fcyl/A

What is brake fluid pressure?

During the brake pressure build-up process, the hydraulic fluid flows through the normally open inlet valve from the master cylinder to the wheel cylinder. The overall theory between the master cylinder and brake pedal relationship is that a driver can either run out of leg strength or pedal travel to reach the desired 1,000 to 1,200 psi in brake pressure.

How to Calculate Brake Fluid Pressure?

Brake Fluid Pressure calculator uses Brake Fluid Pressure = Force Produced by Master Cylinder/Area of Master Cylinder Piston to calculate the Brake Fluid Pressure, The Brake fluid pressure formula is defined as the pressure that acts on the brake fluid present in the master cylinder when brake force is applied by the piston of master cylinder. Brake Fluid Pressure is denoted by P symbol.

How to calculate Brake Fluid Pressure using this online calculator? To use this online calculator for Brake Fluid Pressure, enter Force Produced by Master Cylinder (Fcyl) & Area of Master Cylinder Piston (A) and hit the calculate button. Here is how the Brake Fluid Pressure calculation can be explained with given input values -> 16666.67 = 500/0.03.

FAQ

What is Brake Fluid Pressure?
The Brake fluid pressure formula is defined as the pressure that acts on the brake fluid present in the master cylinder when brake force is applied by the piston of master cylinder and is represented as P = Fcyl/A or Brake Fluid Pressure = Force Produced by Master Cylinder/Area of Master Cylinder Piston. Force Produced by Master Cylinder is defined as the force acting on the brake fluid in the master cylinder & Area of Master Cylinder Piston is defined as the area that is covered by the piston of the master cylinder when force is applied on the piston.
How to calculate Brake Fluid Pressure?
The Brake fluid pressure formula is defined as the pressure that acts on the brake fluid present in the master cylinder when brake force is applied by the piston of master cylinder is calculated using Brake Fluid Pressure = Force Produced by Master Cylinder/Area of Master Cylinder Piston. To calculate Brake Fluid Pressure, you need Force Produced by Master Cylinder (Fcyl) & Area of Master Cylinder Piston (A). With our tool, you need to enter the respective value for Force Produced by Master Cylinder & Area of Master Cylinder Piston 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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