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Angular Displacement of Machine under Power System Stability Formula

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Angular Displacement of Machine is defined as the change in the angular position of its rotating through a specified axis. Check FAQs
δa=θm-ωst
δa - Angular Displacement of Machine?θm - Angular Displacement of Rotor?ωs - Synchronous Speed?t - Time of Angular Displacement?

Angular Displacement of Machine under Power System Stability Example

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Here is how the Angular Displacement of Machine under Power System Stability equation looks like with Values.

Here is how the Angular Displacement of Machine under Power System Stability equation looks like with Units.

Here is how the Angular Displacement of Machine under Power System Stability equation looks like.

20.2Edit=109Edit-8Edit11.1Edit
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HomeIcon Home » Category Engineering » Category Electrical » Category Power System » fx Angular Displacement of Machine under Power System Stability

Angular Displacement of Machine under Power System Stability Solution

Follow our step by step solution on how to calculate Angular Displacement of Machine under Power System Stability?

FIRST Step Consider the formula
δa=θm-ωst
Next Step Substitute values of Variables
δa=109rad-8m/s11.1s
Next Step Prepare to Evaluate
δa=109-811.1
LAST Step Evaluate
δa=20.2rad

Angular Displacement of Machine under Power System Stability Formula Elements

Variables
Angular Displacement of Machine
Angular Displacement of Machine is defined as the change in the angular position of its rotating through a specified axis.
Symbol: δa
Measurement: AngleUnit: rad
Note: Value should be greater than 0.
Formulas to find Angular Displacement of MachineOpen Variable
Angular Displacement of Rotor
Angular Displacement of Rotor is defined as the position of the rotor of a rotating machine (such as a generator or motor) relative to a reference point.
Symbol: θm
Measurement: AngleUnit: rad
Note: Value should be greater than 0.
Formulas to find Angular Displacement of RotorOpen Variable
Synchronous Speed
Synchronous Speed is defined as the speed that depends on the stability of the generator or motor to maintain synchronization of the grid.
Symbol: ωs
Measurement: SpeedUnit: m/s
Note: Value should be greater than 0.
Formulas to find Synchronous SpeedOpen Variable
Time of Angular Displacement
Time of Angular Displacement is defined as the duration taken for the rotor of a rotating machine-like generator or motor to undergo a certain change in angular position.
Symbol: t
Measurement: TimeUnit: s
Note: Value should be greater than 0.
Formulas to find Time of Angular DisplacementOpen Variable

Other formulas in Power System Stability category

​Go Kinetic Energy of Rotor
KE=(12)Jωs210-6
​Go Speed of Synchronous Machine
ωes=(P2)ωr
​Go Inertia Constant of Machine
M=GH180fs
​Go Rotor Acceleration
Pa=Pi-Pep

How to Evaluate Angular Displacement of Machine under Power System Stability?

Angular Displacement of Machine under Power System Stability evaluator uses Angular Displacement of Machine = Angular Displacement of Rotor-Synchronous Speed*Time of Angular Displacement to evaluate the Angular Displacement of Machine, Angular Displacement of Machine under Power System Stability formula is defined as the change in angular position or orientation of a rotating part or component of the machine. It is a measure of how much the angle of rotation has changed from a reference point. Angular Displacement of Machine is denoted by δa symbol.

How to evaluate Angular Displacement of Machine under Power System Stability using this online evaluator? To use this online evaluator for Angular Displacement of Machine under Power System Stability, enter Angular Displacement of Rotor m), Synchronous Speed s) & Time of Angular Displacement (t) and hit the calculate button.

FAQs on Angular Displacement of Machine under Power System Stability

What is the formula to find Angular Displacement of Machine under Power System Stability?
The formula of Angular Displacement of Machine under Power System Stability is expressed as Angular Displacement of Machine = Angular Displacement of Rotor-Synchronous Speed*Time of Angular Displacement. Here is an example- 20.2 = 109-8*11.1.
How to calculate Angular Displacement of Machine under Power System Stability?
With Angular Displacement of Rotor m), Synchronous Speed s) & Time of Angular Displacement (t) we can find Angular Displacement of Machine under Power System Stability using the formula - Angular Displacement of Machine = Angular Displacement of Rotor-Synchronous Speed*Time of Angular Displacement.
Can the Angular Displacement of Machine under Power System Stability be negative?
No, the Angular Displacement of Machine under Power System Stability, measured in Angle cannot be negative.
Which unit is used to measure Angular Displacement of Machine under Power System Stability?
Angular Displacement of Machine under Power System Stability is usually measured using the Radian[rad] for Angle. Degree[rad], Minute[rad], Second[rad] are the few other units in which Angular Displacement of Machine under Power System Stability can be measured.
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