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Deflecting Torque for AC operation in Electrodynamometer Formula

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AC Operation Torque is a measure of the rotational force applied to an object. It causes objects to rotate around an axis, following the principles of rotational motion. Check FAQs

T ac = I rms1 \cdot I rms2 \cdot \cos (ϕ) \cdot dM|dθ

T_ac - AC Operation Torque?I_rms1 - RMS Current 1 in Electrodynamometer?I_rms2 - RMS Current 2 in Electrodynamometer?ϕ - Phase Angle in Electrodynamometer?dM|dθ - Mutual Inductance with Angle?

Deflecting Torque for AC operation in Electrodynamometer Example

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Here is how the Deflecting Torque for AC operation in Electrodynamometer equation looks like with Values.

Here is how the Deflecting Torque for AC operation in Electrodynamometer equation looks like with Units.

Here is how the Deflecting Torque for AC operation in Electrodynamometer equation looks like.

3.4684 = 0.75 \cdot 1.25 \cdot \cos (0.39) \cdot 4

3.4684N*m = 0.75A \cdot 1.25A \cdot \cos (0.39rad) \cdot 4H/rad

3.4684 = 0.75 \cdot 1.25 \cdot \cos (0.39) \cdot 4

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Deflecting Torque for AC operation in Electrodynamometer Solution

Follow our step by step solution on how to calculate Deflecting Torque for AC operation in Electrodynamometer?

FIRST Step Consider the formula

T ac = I rms1 \cdot I rms2 \cdot \cos (ϕ) \cdot dM|dθ

Next Step Substitute values of Variables

∴

T ac = 0.75A \cdot 1.25A \cdot \cos (0.39rad) \cdot 4H/rad

Next Step Prepare to Evaluate

∴

T ac = 0.75 \cdot 1.25 \cdot \cos (0.39) \cdot 4

Next Step Evaluate

∴

T ac = 3.46840897446492N*m

LAST Step Rounding Answer

∴

T ac = 3.4684N*m

Deflecting Torque for AC operation in Electrodynamometer Formula Elements

Variables

Functions

AC Operation Torque

AC Operation Torque is a measure of the rotational force applied to an object. It causes objects to rotate around an axis, following the principles of rotational motion.

Symbol: T_ac

Measurement: TorqueUnit: N*m

Note: Value should be greater than 0.

Formulas to find AC Operation Torque

RMS Current 1 in Electrodynamometer

RMS Current 1 in Electrodynamometer is the effective value of alternating current (AC), representing the equivalent direct current that delivers the same power to a coil 1 in electrodynamometer.

Symbol: I_rms1

Measurement: Electric CurrentUnit: A

Note: Value should be greater than 0.

Formulas to find RMS Current 1 in Electrodynamometer

RMS Current 2 in Electrodynamometer

RMS Current 2 in Electrodynamometer is the effective value of alternating current (AC), representing the equivalent direct current that delivers the same power to a coil 2 in electrodynamometer.

Symbol: I_rms2

Measurement: Electric CurrentUnit: A

Note: Value should be greater than 0.

Formulas to find RMS Current 2 in Electrodynamometer

Phase Angle in Electrodynamometer

Phase Angle in Electrodynamometer measures the relative timing between two periodic waveforms, indicating the time difference between corresponding points of the waves.

Symbol: ϕ

Measurement: AngleUnit: rad

Note: Value should be greater than 0.

Formulas to find Phase Angle in Electrodynamometer

Mutual Inductance with Angle

Mutual Inductance with Angle refers to how the interaction between coils varies as the angle alters, influencing sensitivity and torque measurement accuracy.

Symbol: dM|dθ

Measurement: Change in Inductance with Change in AngleUnit: H/rad

Note: Value should be greater than 0.

Formulas to find Mutual Inductance with Angle

cos

Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle.

Syntax: cos(Angle)

Other formulas in Electrodynamometer Type category

Go Deflecting Torque for DC operation in Electrodynamometer

T dc = I 1 \cdot I 2 \cdot dM|dθ

Go Deflection Angle for DC operation in Electrodynamometer

θ dc = (\frac{I 1 \cdot I 2}{K e}) \cdot dM|dθ

Go Deflection Angle for AC operation in Electrodynamometer

θ ac = (\frac{I rms1 \cdot I rms2}{K e}) \cdot \cos (ϕ) \cdot dM|dθ

How to Evaluate Deflecting Torque for AC operation in Electrodynamometer?

Deflecting Torque for AC operation in Electrodynamometer evaluator uses AC Operation Torque = RMS Current 1 in Electrodynamometer*RMS Current 2 in Electrodynamometer*cos(Phase Angle in Electrodynamometer)*Mutual Inductance with Angle to evaluate the AC Operation Torque, Deflecting Torque for AC operation in Electrodynamometer formula refers to the deflecting torque which is generated by the interaction between the magnetic fields of the fixed and moving coils. This torque is proportional to the product of the currents in these coils and the cosine of the phase angle between them, effectively measuring the average power in the circuit. AC Operation Torque is denoted by T_ac symbol.

How to evaluate Deflecting Torque for AC operation in Electrodynamometer using this online evaluator? To use this online evaluator for Deflecting Torque for AC operation in Electrodynamometer, enter RMS Current 1 in Electrodynamometer (I_rms1), RMS Current 2 in Electrodynamometer (I_rms2), Phase Angle in Electrodynamometer (ϕ) & Mutual Inductance with Angle (dM|dθ) and hit the calculate button.

FAQs on Deflecting Torque for AC operation in Electrodynamometer

What is the formula to find Deflecting Torque for AC operation in Electrodynamometer?

The formula of Deflecting Torque for AC operation in Electrodynamometer is expressed as AC Operation Torque = RMS Current 1 in Electrodynamometer*RMS Current 2 in Electrodynamometer*cos(Phase Angle in Electrodynamometer)*Mutual Inductance with Angle. Here is an example- 4.335511 = 0.75*1.25*cos(0.39)*4.

How to calculate Deflecting Torque for AC operation in Electrodynamometer?

With RMS Current 1 in Electrodynamometer (I_rms1), RMS Current 2 in Electrodynamometer (I_rms2), Phase Angle in Electrodynamometer (ϕ) & Mutual Inductance with Angle (dM|dθ) we can find Deflecting Torque for AC operation in Electrodynamometer using the formula - AC Operation Torque = RMS Current 1 in Electrodynamometer*RMS Current 2 in Electrodynamometer*cos(Phase Angle in Electrodynamometer)*Mutual Inductance with Angle. This formula also uses Cosine (cos) function(s).

Can the Deflecting Torque for AC operation in Electrodynamometer be negative?

No, the Deflecting Torque for AC operation in Electrodynamometer, measured in Torque cannot be negative.

Which unit is used to measure Deflecting Torque for AC operation in Electrodynamometer?

Deflecting Torque for AC operation in Electrodynamometer is usually measured using the Newton Meter[N*m] for Torque. Newton Centimeter[N*m], Newton Millimeter[N*m], Kilonewton Meter[N*m] are the few other units in which Deflecting Torque for AC operation in Electrodynamometer can be measured.

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Deflecting Torque for AC operation in Electrodynamometer Formula

Deflecting Torque for AC operation in Electrodynamometer Example

Deflecting Torque for AC operation in Electrodynamometer Solution

Deflecting Torque for AC operation in Electrodynamometer Formula Elements

Other formulas in Electrodynamometer Type category

How to Evaluate Deflecting Torque for AC operation in Electrodynamometer?

FAQs on Deflecting Torque for AC operation in Electrodynamometer

Variable Name