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Tangential Effort for Epicyclic-Train Dynamometer Formula

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Tangential Effort is the force exerted tangentially to the circumference of a dynamometer, measuring the rotational force or torque of an engine or other machine. Check FAQs

P t = \frac{W end \cdot L horizontal}{2 \cdot a gear}

P_t - Tangential Effort?W_end - Weight at Outer End of Lever?L_horizontal - Distance between Weight and Center of Pulley?a_gear - Distance between Center of Gear and Pinion?

Tangential Effort for Epicyclic-Train Dynamometer Example

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Here is how the Tangential Effort for Epicyclic-Train Dynamometer equation looks like with Values.

Here is how the Tangential Effort for Epicyclic-Train Dynamometer equation looks like with Units.

Here is how the Tangential Effort for Epicyclic-Train Dynamometer equation looks like.

36.0898 = \frac{19 \cdot 0.6843}{2 \cdot 0.1801}

36.0898N = \frac{19N \cdot 0.6843m}{2 \cdot 0.1801m}

36.0898 = \frac{19 \cdot 0.6843}{2 \cdot 0.1801}

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Tangential Effort for Epicyclic-Train Dynamometer Solution

Follow our step by step solution on how to calculate Tangential Effort for Epicyclic-Train Dynamometer?

FIRST Step Consider the formula

P t = \frac{W end \cdot L horizontal}{2 \cdot a gear}

Next Step Substitute values of Variables

∴

P t = \frac{19N \cdot 0.6843m}{2 \cdot 0.1801m}

Next Step Prepare to Evaluate

∴

P t = \frac{19 \cdot 0.6843}{2 \cdot 0.1801}

Next Step Evaluate

∴

P t = 36.0897685005274N

LAST Step Rounding Answer

∴

P t = 36.0898N

Tangential Effort for Epicyclic-Train Dynamometer Formula Elements

Variables

Tangential Effort

Tangential Effort is the force exerted tangentially to the circumference of a dynamometer, measuring the rotational force or torque of an engine or other machine.

Symbol: P_t

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Tangential Effort

Weight at Outer End of Lever

Weight at Outer End of Lever is the force exerted at the outer end of a lever in a dynamometer, used to measure torque or rotational force.

Symbol: W_end

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Weight at Outer End of Lever

Distance between Weight and Center of Pulley

Distance between Weight and Center of Pulley is the length between the weight attached to a dynamometer and the center of the pulley.

Symbol: L_horizontal

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Distance between Weight and Center of Pulley

Distance between Center of Gear and Pinion

Distance between Center of Gear and Pinion is the length between the center of the gear and pinion in a dynamometer, used to measure torque and rotational speed.

Symbol: a_gear

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Distance between Center of Gear and Pinion

Other formulas in Dynamometer category

Go Constant for Particular Shaft for Torsion Dynamometer

k = \frac{G \cdot J}{L shaft}

Go Distance Moved in One Revolution by Rope Brake Dynamometer

d = π \cdot (D wheel + d rope)

Go Load on Brake for Rope Brake Dynamometer

W = W dead - S

Go Tension in Slack Side of Belt for Belt Transmission Dynamometer

T 2 = T 1 - \frac{W end \cdot L horizontal}{2 \cdot a pulley}

How to Evaluate Tangential Effort for Epicyclic-Train Dynamometer?

Tangential Effort for Epicyclic-Train Dynamometer evaluator uses Tangential Effort = (Weight at Outer End of Lever*Distance between Weight and Center of Pulley)/(2*Distance between Center of Gear and Pinion) to evaluate the Tangential Effort, Tangential Effort for Epicyclic-Train Dynamometer formula is defined as the measure of the force exerted tangentially to the direction of rotation of the dynamometer, which is essential in determining the torque and power output of the epicyclic train. Tangential Effort is denoted by P_t symbol.

How to evaluate Tangential Effort for Epicyclic-Train Dynamometer using this online evaluator? To use this online evaluator for Tangential Effort for Epicyclic-Train Dynamometer, enter Weight at Outer End of Lever (W_end), Distance between Weight and Center of Pulley (L_horizontal) & Distance between Center of Gear and Pinion (a_gear) and hit the calculate button.

FAQs on Tangential Effort for Epicyclic-Train Dynamometer

What is the formula to find Tangential Effort for Epicyclic-Train Dynamometer?

The formula of Tangential Effort for Epicyclic-Train Dynamometer is expressed as Tangential Effort = (Weight at Outer End of Lever*Distance between Weight and Center of Pulley)/(2*Distance between Center of Gear and Pinion). Here is an example- 17.03131 = (19*0.6843)/(2*0.18013).

How to calculate Tangential Effort for Epicyclic-Train Dynamometer?

With Weight at Outer End of Lever (W_end), Distance between Weight and Center of Pulley (L_horizontal) & Distance between Center of Gear and Pinion (a_gear) we can find Tangential Effort for Epicyclic-Train Dynamometer using the formula - Tangential Effort = (Weight at Outer End of Lever*Distance between Weight and Center of Pulley)/(2*Distance between Center of Gear and Pinion).

Can the Tangential Effort for Epicyclic-Train Dynamometer be negative?

No, the Tangential Effort for Epicyclic-Train Dynamometer, measured in Force cannot be negative.

Which unit is used to measure Tangential Effort for Epicyclic-Train Dynamometer?

Tangential Effort for Epicyclic-Train Dynamometer is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Tangential Effort for Epicyclic-Train Dynamometer can be measured.

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Tangential Effort for Epicyclic-Train Dynamometer Formula

Tangential Effort for Epicyclic-Train Dynamometer Example

Tangential Effort for Epicyclic-Train Dynamometer Solution

Tangential Effort for Epicyclic-Train Dynamometer Formula Elements

Other formulas in Dynamometer category

How to Evaluate Tangential Effort for Epicyclic-Train Dynamometer?

FAQs on Tangential Effort for Epicyclic-Train Dynamometer

Variable Name