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Theory of Machine
Length of Shaft in Natural Frequency of Free Transverse Vibrations Formulas
Length of Shaft is the distance from the axis of rotation to the point of maximum vibration amplitude in a transversely vibrating shaft. And is denoted by L
shaft
. Length of Shaft is usually measured using the Meter for Length. Note that the value of Length of Shaft is always positive.
Formulas to find Length of Shaft in Natural Frequency of Free Transverse Vibrations
f
x
Length of Shaft given Static Deflection
Go
f
x
Length of Shaft given Natural Frequency
Go
f
x
Length of Shaft given Circular Frequency
Go
f
x
Length of Shaft in given Static Deflection (Shaft Fixed, Uniformly Distributed Load)
Go
f
x
Length of Shaft given Natural Frequency (Shaft Fixed, Uniformly Distributed Load)
Go
f
x
Length of Shaft given Natural Circular Frequency (Shaft Fixed, Uniformly Distributed Load)
Go
f
x
Length of Shaft
Go
Natural Frequency of Free Transverse Vibrations formulas that make use of Length of Shaft
f
x
Uniformly Distributed Load Unit Length given Static Deflection
Go
f
x
Moment of Inertia of Shaft given Static Deflection given Load per Unit Length
Go
f
x
Static Deflection of Simply Supported Shaft due to Uniformly Distributed Load
Go
f
x
Moment of Inertia of Shaft given Natural Frequency
Go
f
x
Moment of Inertia of Shaft given Circular Frequency
Go
f
x
Uniformly Distributed Load Unit Length given Natural Frequency
Go
f
x
Uniformly Distributed Load Unit Length given Circular Frequency
Go
f
x
Natural Frequency due to Uniformly Distributed Load
Go
f
x
Circular Frequency due to Uniformly Distributed Load
Go
f
x
Static Deflection at Distance x from End A
Go
f
x
Maximum Bending Moment at Distance x from End A
Go
f
x
M.I of Shaft given Static Deflection for Fixed Shaft and Uniformly Distributed Load
Go
f
x
Static Deflection of Shaft due to Uniformly Distributed Load given Length of Shaft
Go
f
x
Load given Natural Frequency for Fixed Shaft and Uniformly Distributed Load
Go
f
x
Load given Natural Circular Frequency (Shaft Fixed, Uniformly Distributed Load)
Go
f
x
M.I of Shaft given Natural Frequency for Fixed Shaft and Uniformly Distributed Load
Go
f
x
M.I of Shaft given Natural Circular Frequency (Shaft Fixed, Uniformly Distributed Load)
Go
f
x
Natural Frequency of Shaft Fixed at Both Ends and Carrying Uniformly Distributed Load
Go
f
x
Natural Circular Frequency of Shaft Fixed at Both Ends and Carrying Uniformly Distributed Load
Go
f
x
Bending Moment at Some Distance from One End
Go
f
x
Static Deflection at Distance x from End A given Length of Shaft
Go
f
x
Load using Static Deflection (Shaft Fixed, Uniformly Distributed Load)
Go
f
x
Static Deflection given Moment of Inertia of Shaft
Go
f
x
Load at Free End in Free Transverse Vibrations
Go
f
x
Moment of Inertia of Shaft given Static Deflection
Go
List of variables in Natural Frequency of Free Transverse Vibrations formulas
f
x
Static Deflection
Go
f
x
Young's Modulus
Go
f
x
Moment of inertia of shaft
Go
f
x
Load per unit length
Go
f
x
Frequency
Go
f
x
Acceleration due to Gravity
Go
f
x
Natural Circular Frequency
Go
f
x
Load Attached to Free End of Constraint
Go
FAQ
What is the Length of Shaft?
Length of Shaft is the distance from the axis of rotation to the point of maximum vibration amplitude in a transversely vibrating shaft. Length of Shaft is usually measured using the Meter for Length. Note that the value of Length of Shaft is always positive.
Can the Length of Shaft be negative?
No, the Length of Shaft, measured in Length cannot be negative.
What unit is used to measure Length of Shaft?
Length of Shaft is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Length of Shaft can be measured.
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