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Deflection Angle for DC operation in Electrodynamometer Formula

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Deflection Angle DC Electrodynamometer shows current or power levels. It results from magnetic interactions between fixed and moving coils, increasing with higher current. Check FAQs

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

θ_dc - Deflection Angle DC Electrodynamometer?I₁ - Direct Current 1 in Electrodynamometer?I₂ - Direct Current 2 in Electrodynamometer?K_e - Spring Constant in Electrodynamometer?dM|dθ - Mutual Inductance with Angle?

Deflection Angle for DC operation in Electrodynamometer Example

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Here is how the Deflection Angle for DC operation in Electrodynamometer equation looks like with Values.

Here is how the Deflection Angle for DC operation in Electrodynamometer equation looks like with Units.

Here is how the Deflection Angle for DC operation in Electrodynamometer equation looks like.

4.4118 = (\frac{2.5 \cdot 1.5}{3.4}) \cdot 4

4.4118rad = (\frac{2.5A \cdot 1.5A}{3.4Nm/rad}) \cdot 4H/rad

4.4118 = (\frac{2.5 \cdot 1.5}{3.4}) \cdot 4

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Deflection Angle for DC operation in Electrodynamometer Solution

Follow our step by step solution on how to calculate Deflection Angle for DC operation in Electrodynamometer?

FIRST Step Consider the formula

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

Next Step Substitute values of Variables

∴

θ dc = (\frac{2.5A \cdot 1.5A}{3.4Nm/rad}) \cdot 4H/rad

Next Step Prepare to Evaluate

∴

θ dc = (\frac{2.5 \cdot 1.5}{3.4}) \cdot 4

Next Step Evaluate

∴

θ dc = 4.41176470588235rad

LAST Step Rounding Answer

∴

θ dc = 4.4118rad

Deflection Angle for DC operation in Electrodynamometer Formula Elements

Variables

Deflection Angle DC Electrodynamometer

Deflection Angle DC Electrodynamometer shows current or power levels. It results from magnetic interactions between fixed and moving coils, increasing with higher current.

Symbol: θ_dc

Measurement: AngleUnit: rad

Note: Value should be greater than 0.

Formulas to find Deflection Angle DC Electrodynamometer

Direct Current 1 in Electrodynamometer

Direct Current 1 in Electrodynamometer is a type of electrical flow where electrons flow in one direction in coil 1 of electrodynamometer.

Symbol: I₁

Measurement: Electric CurrentUnit: A

Note: Value should be greater than 0.

Formulas to find Direct Current 1 in Electrodynamometer

Direct Current 2 in Electrodynamometer

Direct Current 2 in Electrodynamometer is a type of electrical flow where electrons flow in one direction in coil 2 of electrodynamometer.

Symbol: I₂

Measurement: Electric CurrentUnit: A

Note: Value should be greater than 0.

Formulas to find Direct Current 2 in Electrodynamometer

Spring Constant in Electrodynamometer

Spring Constant in Electrodynamometer measures the stiffness of a spring, indicating how much force is needed to stretch or compress it.

Symbol: K_e

Measurement: Torsion ConstantUnit: Nm/rad

Note: Value should be greater than 0.

Formulas to find Spring Constant 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

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 Deflecting Torque for AC operation in Electrodynamometer

T ac = I rms1 \cdot I rms2 \cdot \cos (ϕ) \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 Deflection Angle for DC operation in Electrodynamometer?

Deflection Angle for DC operation in Electrodynamometer evaluator uses Deflection Angle DC Electrodynamometer = ((Direct Current 1 in Electrodynamometer*Direct Current 2 in Electrodynamometer)/Spring Constant in Electrodynamometer)*Mutual Inductance with Angle to evaluate the Deflection Angle DC Electrodynamometer, Deflection Angle for DC operation in Electrodynamometer formula refers to the deflection angle which is a measure of the angular displacement of the moving coil due to the deflecting torque generated by the interaction of magnetic fields from the fixed and moving coils. Deflection Angle DC Electrodynamometer is denoted by θ_dc symbol.

How to evaluate Deflection Angle for DC operation in Electrodynamometer using this online evaluator? To use this online evaluator for Deflection Angle for DC operation in Electrodynamometer, enter Direct Current 1 in Electrodynamometer (I₁), Direct Current 2 in Electrodynamometer (I₂), Spring Constant in Electrodynamometer (K_e) & Mutual Inductance with Angle (dM|dθ) and hit the calculate button.

FAQs on Deflection Angle for DC operation in Electrodynamometer

What is the formula to find Deflection Angle for DC operation in Electrodynamometer?

The formula of Deflection Angle for DC operation in Electrodynamometer is expressed as Deflection Angle DC Electrodynamometer = ((Direct Current 1 in Electrodynamometer*Direct Current 2 in Electrodynamometer)/Spring Constant in Electrodynamometer)*Mutual Inductance with Angle. Here is an example- 4.411765 = ((2.5*1.5)/3.4)*4.

How to calculate Deflection Angle for DC operation in Electrodynamometer?

With Direct Current 1 in Electrodynamometer (I₁), Direct Current 2 in Electrodynamometer (I₂), Spring Constant in Electrodynamometer (K_e) & Mutual Inductance with Angle (dM|dθ) we can find Deflection Angle for DC operation in Electrodynamometer using the formula - Deflection Angle DC Electrodynamometer = ((Direct Current 1 in Electrodynamometer*Direct Current 2 in Electrodynamometer)/Spring Constant in Electrodynamometer)*Mutual Inductance with Angle.

Can the Deflection Angle for DC operation in Electrodynamometer be negative?

No, the Deflection Angle for DC operation in Electrodynamometer, measured in Angle cannot be negative.

Which unit is used to measure Deflection Angle for DC operation in Electrodynamometer?

Deflection Angle for DC operation in Electrodynamometer is usually measured using the Radian[rad] for Angle. Degree[rad], Minute[rad], Second[rad] are the few other units in which Deflection Angle for DC operation in Electrodynamometer can be measured.

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Deflection Angle for DC operation in Electrodynamometer Formula

Deflection Angle for DC operation in Electrodynamometer Example

Deflection Angle for DC operation in Electrodynamometer Solution

Deflection Angle for DC operation in Electrodynamometer Formula Elements

Other formulas in Electrodynamometer Type category

How to Evaluate Deflection Angle for DC operation in Electrodynamometer?

FAQs on Deflection Angle for DC operation in Electrodynamometer

Variable Name