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Final Steady Deflection in Galvanometer Formula

GoDeflection in Galvanometer Formula

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Deflection Angle is the value indicated on a scale by a pointer that is connected to the suspension wire. Check FAQs

θ d = \frac{T c}{K}

θ_d - Deflection Angle?T_c - Controlling Torque?K - Spring Constant?

Final Steady Deflection in Galvanometer Example

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Here is how the Final Steady Deflection in Galvanometer equation looks like with Values.

Here is how the Final Steady Deflection in Galvanometer equation looks like with Units.

Here is how the Final Steady Deflection in Galvanometer equation looks like.

1.5667 = \frac{2.35}{1.5}

1.5667rad = \frac{2.35N*m}{1.5Nm/rad}

1.5667 = \frac{2.35}{1.5}

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Final Steady Deflection in Galvanometer Solution

Follow our step by step solution on how to calculate Final Steady Deflection in Galvanometer?

FIRST Step Consider the formula

θ d = \frac{T c}{K}

Next Step Substitute values of Variables

∴

θ d = \frac{2.35N*m}{1.5Nm/rad}

Next Step Prepare to Evaluate

∴

θ d = \frac{2.35}{1.5}

Next Step Evaluate

∴

θ d = 1.56666666666667rad

LAST Step Rounding Answer

∴

θ d = 1.5667rad

Final Steady Deflection in Galvanometer Formula Elements

Variables

Deflection Angle

Deflection Angle is the value indicated on a scale by a pointer that is connected to the suspension wire.

Symbol: θ_d

Measurement: AngleUnit: rad

Note: Value should be greater than 0.

Formulas to find Deflection Angle

Controlling Torque

Controlling torque involves applying force to manage rotational motion, ensuring stability, adjusting speed, and counteracting external influences such as friction or load changes.

Symbol: T_c

Measurement: TorqueUnit: N*m

Note: Value should be greater than 0.

Formulas to find Controlling Torque

Spring Constant

Spring Constant in a galvanometer refers to the stiffness of the spring used to suspend the moving coil or pointer within the galvanometer.

Symbol: K

Measurement: Torsion ConstantUnit: Nm/rad

Note: Value should be greater than 0.

Formulas to find Spring Constant

Other Formulas to find Deflection Angle

Go Deflection in Galvanometer

θ d = V \cdot S v

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Go EMF across Galvanometer

V = R \cdot (I 1 - I 2)

Go Instantaneous Deflecting Torque

T i = R \cdot K \cdot ({I 1}^{2} - {I 2}^{2})

Go Average Current through Galvanometer

I = \frac{2 \cdot N \cdot Φ}{t \cdot R}

Go Throw of Galvanometer

θ = S g \cdot Q

How to Evaluate Final Steady Deflection in Galvanometer?

Final Steady Deflection in Galvanometer evaluator uses Deflection Angle = Controlling Torque/Spring Constant to evaluate the Deflection Angle, The Final Steady Deflection in Galvanometer formula is defined as the stable position reached by the pointer of the galvanometer after the current passing through it has stabilized. Deflection Angle is denoted by θ_d symbol.

How to evaluate Final Steady Deflection in Galvanometer using this online evaluator? To use this online evaluator for Final Steady Deflection in Galvanometer, enter Controlling Torque (T_c) & Spring Constant (K) and hit the calculate button.

FAQs on Final Steady Deflection in Galvanometer

What is the formula to find Final Steady Deflection in Galvanometer?

The formula of Final Steady Deflection in Galvanometer is expressed as Deflection Angle = Controlling Torque/Spring Constant. Here is an example- 22.66667 = 2.35/1.5.

How to calculate Final Steady Deflection in Galvanometer?

With Controlling Torque (T_c) & Spring Constant (K) we can find Final Steady Deflection in Galvanometer using the formula - Deflection Angle = Controlling Torque/Spring Constant.

What are the other ways to Calculate Deflection Angle?

Here are the different ways to Calculate Deflection Angle-

Deflection Angle=Voltage across Galvanometer*Voltage Sensitivity

Can the Final Steady Deflection in Galvanometer be negative?

No, the Final Steady Deflection in Galvanometer, measured in Angle cannot be negative.

Which unit is used to measure Final Steady Deflection in Galvanometer?

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

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Final Steady Deflection in Galvanometer Formula

​GoDeflection in Galvanometer Formula

Final Steady Deflection in Galvanometer Example

Final Steady Deflection in Galvanometer Solution

Final Steady Deflection in Galvanometer Formula Elements

Other Formulas to find Deflection Angle

Other formulas in Galvanometer category

How to Evaluate Final Steady Deflection in Galvanometer?

FAQs on Final Steady Deflection in Galvanometer

Variable Name

GoDeflection in Galvanometer Formula