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BALANCING BALANCING BALANCING BALANCING
Page 2


BALANCING BALANCING BALANCING BALANCING
Balancing 
 The process of providing the second mass in order to 
counteract the effect of the centrifugal force of the first mass, 
is called balancing of rotating masses.
 To eliminate all shaking forces and shaking moments
 Any link or member that is in pure rotation can, theoretically,  Any link or member that is in pure rotation can, theoretically, 
be perfectly balanced to eliminate all shaking forces and 
shaking moments.
 A rotating member can be balanced either statically or 
dynamically.
 Rotating parts can, and generally should, be designed to be 
inherently balanced by their geometry.
Page 3


BALANCING BALANCING BALANCING BALANCING
Balancing 
 The process of providing the second mass in order to 
counteract the effect of the centrifugal force of the first mass, 
is called balancing of rotating masses.
 To eliminate all shaking forces and shaking moments
 Any link or member that is in pure rotation can, theoretically,  Any link or member that is in pure rotation can, theoretically, 
be perfectly balanced to eliminate all shaking forces and 
shaking moments.
 A rotating member can be balanced either statically or 
dynamically.
 Rotating parts can, and generally should, be designed to be 
inherently balanced by their geometry.
 However, the vagaries(unpredictable change or action) 
of production tolerances guarantee that there will 
still be some small unbalance in each part. Thus a 
balancing procedure will have to be applied to each 
part after manufacture
 The amount and location of any imbalance can be 
measured quite accurately and compensated for by 
adding or removing material in the correct 
locations..
Page 4


BALANCING BALANCING BALANCING BALANCING
Balancing 
 The process of providing the second mass in order to 
counteract the effect of the centrifugal force of the first mass, 
is called balancing of rotating masses.
 To eliminate all shaking forces and shaking moments
 Any link or member that is in pure rotation can, theoretically,  Any link or member that is in pure rotation can, theoretically, 
be perfectly balanced to eliminate all shaking forces and 
shaking moments.
 A rotating member can be balanced either statically or 
dynamically.
 Rotating parts can, and generally should, be designed to be 
inherently balanced by their geometry.
 However, the vagaries(unpredictable change or action) 
of production tolerances guarantee that there will 
still be some small unbalance in each part. Thus a 
balancing procedure will have to be applied to each 
part after manufacture
 The amount and location of any imbalance can be 
measured quite accurately and compensated for by 
adding or removing material in the correct 
locations..
STATIC BALANCE STATIC BALANCE STATIC BALANCE STATIC BALANCE
 The requirement for static balance is simply that the sum of all 
forces on the moving system (including 
d‘ Alembert inertial forces) must be zero.
• Despite its name, static balance does apply to things in 
motion.
• The unbalanced forces of concern are due to the accelerations 
of masses in the system.
• An other name for static balance is single-plane balance, 
which means that the masses which are generating the inertia 
forces are in, or nearly in, the same plane.
• It is essentially a two-dimensional problem.
Page 5


BALANCING BALANCING BALANCING BALANCING
Balancing 
 The process of providing the second mass in order to 
counteract the effect of the centrifugal force of the first mass, 
is called balancing of rotating masses.
 To eliminate all shaking forces and shaking moments
 Any link or member that is in pure rotation can, theoretically,  Any link or member that is in pure rotation can, theoretically, 
be perfectly balanced to eliminate all shaking forces and 
shaking moments.
 A rotating member can be balanced either statically or 
dynamically.
 Rotating parts can, and generally should, be designed to be 
inherently balanced by their geometry.
 However, the vagaries(unpredictable change or action) 
of production tolerances guarantee that there will 
still be some small unbalance in each part. Thus a 
balancing procedure will have to be applied to each 
part after manufacture
 The amount and location of any imbalance can be 
measured quite accurately and compensated for by 
adding or removing material in the correct 
locations..
STATIC BALANCE STATIC BALANCE STATIC BALANCE STATIC BALANCE
 The requirement for static balance is simply that the sum of all 
forces on the moving system (including 
d‘ Alembert inertial forces) must be zero.
• Despite its name, static balance does apply to things in 
motion.
• The unbalanced forces of concern are due to the accelerations 
of masses in the system.
• An other name for static balance is single-plane balance, 
which means that the masses which are generating the inertia 
forces are in, or nearly in, the same plane.
• It is essentially a two-dimensional problem.
 Some examples of common devices which meet this 
criterion, and thus can successfully be statically 
balanced, are:
 a single gear or pulley on a shaft, a single gear or pulley on a shaft,
 a bicycle or motorcycle tire and wheel,
 a thin flywheel,
 an airplane propeller,
 an individual turbine blade-wheel (but not the 
entire turbine)

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FAQs on PPT: Balancing - Theory of Machines (TOM) - Mechanical Engineering

1. What are the key principles of balancing in mechanical engineering?

Ans. Balancing in mechanical engineering involves principles such as static and dynamic balancing, which aim to eliminate or minimize vibrations in rotating machinery. Static balancing ensures that the center of mass of a rotating component is on its axis of rotation, while dynamic balancing involves the addition or removal of mass to minimize unbalanced forces and moments.

2. Why is balancing important in mechanical engineering?

Ans. Balancing is crucial in mechanical engineering as it helps to reduce vibrations, which can lead to excessive wear, decreased performance, and even structural failure of rotating machinery. By achieving proper balance, mechanical systems can operate more efficiently, extend their lifespan, and improve overall safety.

3. How is balancing achieved in mechanical engineering?

Ans. Balancing in mechanical engineering is achieved through various methods such as adding counterweights, adjusting component positions, or using specialized balancing machines. These methods help to redistribute mass or modify the geometry of rotating components to minimize unbalanced forces and moments.

4. What are the common types of balancing in mechanical engineering?

Ans. The common types of balancing in mechanical engineering include static balancing, dynamic balancing, and couple balancing. Static balancing involves balancing a rotating component in a single plane, while dynamic balancing takes into account multiple planes and considers the effect of rotational speed. Couple balancing addresses the balance between two rotating components to minimize the transmission of vibrations.

5. Can unbalanced machinery affect the performance of mechanical systems?

Ans. Yes, unbalanced machinery can significantly affect the performance of mechanical systems. It can lead to increased vibrations, reduced efficiency, increased energy consumption, and potential damage to the machinery itself. Unbalanced forces and moments can also affect the accuracy and precision of measurements or processes performed by the mechanical system.

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	Nov 15, 2024 Last updated

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