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Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Formula

GoNormal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Anti Clock) Formula

GoNormal Force for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum (Anti Clock) Formula

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Normal Force is the force exerted by a surface against an object that is in contact with it, usually perpendicular to the surface. Check FAQs

Fn = \frac{P \cdot l}{x + μ brake \cdot a shift}

Fn - Normal Force?P - Force Applied at the End of the Lever?l - Distance b/w Fulcrum and End of Lever?x - Distance b/w Fulcrum and Axis of Wheel?μ_brake - Coefficient of Friction for Brake?a_shift - Shift in Line of Action of Tangential Force?

Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Example

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Here is how the Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) equation looks like with Values.

Here is how the Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) equation looks like with Units.

Here is how the Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) equation looks like.

10.9147 = \frac{32 \cdot 1.1}{2 + 0.35 \cdot 3.5}

10.9147N = \frac{32N \cdot 1.1m}{2m + 0.35 \cdot 3.5m}

10.9147 = \frac{32 \cdot 1.1}{2 + 0.35 \cdot 3.5}

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Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Solution

Follow our step by step solution on how to calculate Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)?

FIRST Step Consider the formula

Fn = \frac{P \cdot l}{x + μ brake \cdot a shift}

Next Step Substitute values of Variables

∴

Fn = \frac{32N \cdot 1.1m}{2m + 0.35 \cdot 3.5m}

Next Step Prepare to Evaluate

∴

Fn = \frac{32 \cdot 1.1}{2 + 0.35 \cdot 3.5}

Next Step Evaluate

∴

Fn = 10.9147286821705N

LAST Step Rounding Answer

∴

Fn = 10.9147N

Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Formula Elements

Variables

Normal Force

Normal Force is the force exerted by a surface against an object that is in contact with it, usually perpendicular to the surface.

Symbol: Fn

Measurement: ForceUnit: N

Note: Value can be positive or negative.

Formulas to find Normal Force

Force Applied at the End of the Lever

Force Applied at the End of the Lever is the force exerted at the end of a lever, which is a rigid bar used to multiply force.

Symbol: P

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Force Applied at the End of the Lever

Distance b/w Fulcrum and End of Lever

Distance b/w Fulcrum and End of Lever is known as the lever arm or moment arm. It determines the lever's mechanical advantage by influencing the force required to lift or move an object.

Symbol: l

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Distance b/w Fulcrum and End of Lever

Distance b/w Fulcrum and Axis of Wheel

Distance b/w Fulcrum and Axis of Wheel is the length of the line segment connecting the fulcrum and the axis of rotation of a wheel.

Symbol: x

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Distance b/w Fulcrum and Axis of Wheel

Coefficient of Friction for Brake

Coefficient of Friction for Brake is a dimensionless scalar value that characterizes the ratio of the frictional force to the normal force between two surfaces in contact.

Symbol: μ_brake

Measurement: NAUnit: Unitless

Note: Value should be between 0 to 1.

Formulas to find Coefficient of Friction for Brake

Shift in Line of Action of Tangential Force

Shift in Line of Action of Tangential Force is the change in direction of the line of action of a tangential force acting on an object.

Symbol: a_shift

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Shift in Line of Action of Tangential Force

Other Formulas to find Normal Force

Go Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Anti Clock)

Fn = \frac{P \cdot l}{x - μ brake \cdot a shift}

Go Normal Force for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum (Anti Clock)

Fn = \frac{P \cdot l}{x + μ brake \cdot a shift}

Go Normal Force for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum (Clockwise)

Fn = \frac{P \cdot l}{x - μ brake \cdot a shift}

Go Normal Force Pressing Brake Block on Wheel for Shoe Brake

Fn = \frac{P \cdot l}{x}

Other formulas in Force category

Go Braking Force on Drum for Simple Band Brake

F braking = T 1 - T 2

Go Force on Lever of Simple Band Brake for Anticlockwise Rotation of Drum

P = \frac{T 2 \cdot b}{l}

Go Force on Lever of Simple Band Brake for Clockwise Rotation of Drum

P = \frac{T 1 \cdot b}{l}

Go Maximum Braking Force Acting at Front Wheels when Brakes are Applied to Front Wheels only

F braking = μ brake \cdot R A

How to Evaluate Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)?

Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) evaluator uses Normal Force = (Force Applied at the End of the Lever*Distance b/w Fulcrum and End of Lever)/(Distance b/w Fulcrum and Axis of Wheel+Coefficient of Friction for Brake*Shift in Line of Action of Tangential Force) to evaluate the Normal Force, Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) formula is defined as the force exerted by the brake shoe on the rotating wheel to slow it down, which depends on the tangential force, pivot point, and brake efficiency, and is crucial in designing effective braking systems in vehicles and machinery. Normal Force is denoted by Fn symbol.

How to evaluate Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) using this online evaluator? To use this online evaluator for Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise), enter Force Applied at the End of the Lever (P), Distance b/w Fulcrum and End of Lever (l), Distance b/w Fulcrum and Axis of Wheel (x), Coefficient of Friction for Brake (μ_brake) & Shift in Line of Action of Tangential Force (a_shift) and hit the calculate button.

FAQs on Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)

What is the formula to find Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)?

The formula of Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) is expressed as Normal Force = (Force Applied at the End of the Lever*Distance b/w Fulcrum and End of Lever)/(Distance b/w Fulcrum and Axis of Wheel+Coefficient of Friction for Brake*Shift in Line of Action of Tangential Force). Here is an example- 10.91473 = (32*1.1)/(2+0.35*3.5).

How to calculate Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)?

With Force Applied at the End of the Lever (P), Distance b/w Fulcrum and End of Lever (l), Distance b/w Fulcrum and Axis of Wheel (x), Coefficient of Friction for Brake (μ_brake) & Shift in Line of Action of Tangential Force (a_shift) we can find Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) using the formula - Normal Force = (Force Applied at the End of the Lever*Distance b/w Fulcrum and End of Lever)/(Distance b/w Fulcrum and Axis of Wheel+Coefficient of Friction for Brake*Shift in Line of Action of Tangential Force).

What are the other ways to Calculate Normal Force?

Here are the different ways to Calculate Normal Force-

Normal Force=(Force Applied at the End of the Lever*Distance b/w Fulcrum and End of Lever)/(Distance b/w Fulcrum and Axis of Wheel-Coefficient of Friction for Brake*Shift in Line of Action of Tangential Force)
Normal Force=(Force Applied at the End of the Lever*Distance b/w Fulcrum and End of Lever)/(Distance b/w Fulcrum and Axis of Wheel+Coefficient of Friction for Brake*Shift in Line of Action of Tangential Force)
Normal Force=(Force Applied at the End of the Lever*Distance b/w Fulcrum and End of Lever)/(Distance b/w Fulcrum and Axis of Wheel-Coefficient of Friction for Brake*Shift in Line of Action of Tangential Force)

Can the Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) be negative?

Yes, the Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise), measured in Force can be negative.

Which unit is used to measure Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)?

Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) can be measured.

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Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Formula

​GoNormal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Anti Clock) Formula

​GoNormal Force for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum (Anti Clock) Formula

Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Example

Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Solution

Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise) Formula Elements

Other Formulas to find Normal Force

Other formulas in Force category

How to Evaluate Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)?

FAQs on Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)

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GoNormal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Anti Clock) Formula

GoNormal Force for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum (Anti Clock) Formula