 Experiment 8 Moment of inertia and angular acceleration Experiment: Determination of moment of Inertia of a Fly Wheel. Theory: The flywheel consists of a weighty round disc/massive wheel fixed with a strong axle projecting on either side.The axle is mounted on ball bearings on two fixed supports. There is a little peg on the axle. One end of a cord is loosely looped around the peg and its other end carries the weight-hanger.

## Experiment 10 Moment of Inertia relativity.phy.olemiss.edu

16.3 Rotational Kinetic Energy and Moment of Inertia. Theoretical and Experimental Studies on a Cylinder Containing Granules Rolling Down an Inclined Plane Short title: Cylinder containing granules rolling down an incline Edy Wibowo, Sutisna, Mamat Rokhmat, Elfi Yuliza, Khairurrijal, and Mikrajuddin Abdullah(a) Department of Physics Bandung Institute of Technology, Physics 4A Lab 11: MOMENT OF INERTIA The object of this experiment is to make a dynamic measurement of the moment of inertia of a ring about its cylinder axis, and to compare the value obtained with the theoretical value calculated from measurements of the ringвЂ™s mass and inside and outside radii. Method The setup for this experiment is shown.

To determine the moment of inertia of a flywheel. Apparatus: Fly wheel, weight hanger, slotted weights, stop watch, metre scale. Theory: The flywheel consists of a heavy circular disc/massive wheel fitted with a strong axle projecting on either side.The axle is mounted on ball bearings on two fixed supports. There is a small peg on the axle. One end of a cord is loosely looped around the peg and its other end carries вЂ¦ Last Revised on January 8, 2015 Grade: _____ EXPERIMENT 4 Moment of Inertia & Oscillations 0. Pre-Laboratory Work [2pts] 1. In Section 3.1, describe briefly the steps you take to make sure your apparatus setup is done correctly and the timer is working properly. The Procedure says, вЂњIt should be three passes

UNIT 4 FLYWHEEL Flywheel Structure 4.1 Introduction Objectives 4.2 Dynamically Equivalent System 4.3 Turning Moment Diagram 4.3.1 Turning Moment Diagram of a Single Cylinder 4-storke IC Engine 4.3.2 Turning Moment Diagram of a Multicylinder 4-stroke IC Engine 4.3.3 Turning Moment Diagram of a Single Cylinder Double Acting Steam Engine 4.4 Fluctuation of Energy and Speed 4.5 Flywheel Design 4.5 Moment Of Inertia Of Flywheel - Here students will learn how to determine the moment of inertia using the formula along with its full derivation. Read about the flywheel experiment and more.

Physics 2107 Moments of Inertia Experiment 1 Read the following background/setup and ensure you are familiar with the theory required for the experiment. Please also fill in the missing equations 5, 7 and 9. Background/Setup The moment of inertia, I, of a body is a measure of how hard it is to get it rotating about some axis. Moment Of Inertia Of Flywheel: Aim : The aim of this experiment is to measure the moment of inertia of a flywheel. Diagram : Materials : - A heavy flywheel mounted on an axle on suitable bearings. - A ruler Vernier calipers - Thin cord Stopwatch . Procedure : - Set up the apparatus as shown in the diagram and allow the weight to fall a height h. - The length of twine fixed to the small mass

Objective: To determine moment intertie of flywheel Apparatus and Diagram: 1. Mass 2. Stop Watch 3. Measuring tape Diagram: Procedure: First a steel and aluminium flywheel was wounded by a cord. A hook was attached to a cord and mass was putted on Experiment 10 Moments of Inertia Advanced Reading (Halliday, Resnick & Walker) Chapter 10, Sections 10-5 through 10-9 Equipment вЂўBeck's Inertia Thing (rotational apparatus) вЂў vernier caliper вЂў masses вЂў meter stick вЂў stopwatch Objective The objective of this experiment is to dynamically measure the moment of inertia of a rotating system

26/11/2018В В· Aim :- To find out Moment of Inertia of Flywheel. Link of Vernier Caliper = https://youtu.be/xliGyZwEUG8 LIKE SHARE SUBSCRIBE ABOUT:-In this Robotic World you need Moment Of Inertia Of Flywheel: Aim : The aim of this experiment is to measure the moment of inertia of a flywheel. Diagram : Materials : - A heavy flywheel mounted on an axle on suitable bearings. - A ruler Vernier calipers - Thin cord Stopwatch . Procedure : - Set up the apparatus as shown in the diagram and allow the weight to fall a height h. - The length of twine fixed to the small mass

When an increase in torque occurs, the flywheel will speed up and absorb energy. The greater the moment of inertia, the more energy it will absorb. The result is that it speeds up less than it would do with a smaller moment of inertia. When the torque decreases, the flywheel will slow down but the inertia of the system will limit the amount it Objective: To determine moment intertie of flywheel Apparatus and Diagram: 1. Mass 2. Stop Watch 3. Measuring tape Diagram: Procedure: First a steel and aluminium flywheel was wounded by a cord. A hook was attached to a cord and mass was putted on

Objective: To determine moment intertie of flywheel Apparatus and Diagram: 1. Mass 2. Stop Watch 3. Measuring tape Diagram: Procedure: First a steel and aluminium flywheel was wounded by a cord. A hook was attached to a cord and mass was putted on moment of inertia associated with the rotating arms, base, and extended nature of the two masses. Experimental Procedure The apparatus, shown in Figure 2, is used to measure the angular acceleration of a pair of masses, arms, and supporting base when subjected to a fixed torque, П„, caused by the string tension force, T, acting on the surface of the central pulley with radius, R. The tension

As the flywheel completes N further turns, its original rotational kinetic energy is transferred into friction loss. For the known mass density & geometry of the material used, in SI system of units the unit of moment of inertia is Kg.m2 (kilogram meter square) Procedure to perform the Experiment : 1. The flywheel is set with the axle of the flywheel horizontal. A polystyrene tile was placed on the floor to вЂ¦ Moment of inertia of a Flywheel OBJECT: To determine the moment of inertia of a flywheel about its own axis of rotation. Apparatus used: Flywheel, a few masses, a strong and thin string, stop watch, vernier callipers. Formula used: The moment of inertia of a flywheel is given by following formula: ПЂ ПЂ = = ПЂ ПЂ П‰= Г— вЋџвЋџ вЋ  вЋћ вЋњвЋњ вЋќ вЋ› + в€’ = П‰ вЋџвЋџ

### Moment of Inertia of a flywheel by falling weight method Moment Of Inertia Of Flywheel Formula And Experiment. moment inertia of a flywheel lab report 1. moment of intertia of aflywheel. egerton university faculty of engineering and technology department of industrial and вЂ¦, To determine the moment of inertia of a flywheel. Apparatus: Fly wheel, weight hanger, slotted weights, stop watch, metre scale. Theory: The flywheel consists of a heavy circular disc/massive wheel fitted with a strong axle projecting on either side.The axle is mounted on ball bearings on two fixed supports. There is a small peg on the axle. One end of a cord is loosely looped around the peg and its other end carries вЂ¦. maxwell.ict.griffith.edu.au. Experiment 10 Moments of Inertia Advanced Reading (Halliday, Resnick & Walker) Chapter 10, Sections 10-5 through 10-9 Equipment вЂўBeck's Inertia Thing (rotational apparatus) вЂў vernier caliper вЂў masses вЂў meter stick вЂў stopwatch Objective The objective of this experiment is to dynamically measure the moment of inertia of a rotating system https://en.wikipedia.org/wiki/Symmetrical_top EXPERIMENT 9 MOMENT OF INERTIA I. THEORY The purpose of this experiment is to determine the experimental moment of inertia of a disk and of a ring by using the principle of conservation of energy. The experimental moment of inertia will be compared with the theoretical moment of inertia for each. The theoretical moments of inertia of the bodies used as unknowns in this experiment may be. A flywheel with axle mounted some height above floor level, slotted mass on hanger, a cord, a 2m rule and a stop watch. Figure: Experimental apparatus for the moment of inertia experiment. 3.0 Theory: In this experiment a flywheel at rest with a mass m hanging ( in a gravitational field of constant g) on the end of a cord and also the mass is Experiment 10 Moment of Inertia Advanced Reading Moment of Inertia section of text Equipment вЂўBeck's Inertia Thing (rotational apparatus) вЂў Vernier caliper вЂў masses вЂў meter stick вЂў stopwatch вЂў plastic mass hanger Objective The objective of this experiment is to dynamically measure the moment of inertia of a rotating system and to compare this to a predicted value. Theory The moment

26/10/2014В В· For instance, a simple physical interpretation of moment of inertia: The greater the moment of inertia, the greater the kinetic energy of a rigid body rotating with a given angular speed. (Young H.D., 2012) Meanwhile, we performed an experiment for moment of inertia using the disk and ring. A rimmed flywheel has a rim, a hub, and spokes. Calculation of the flywheel's moment of inertia can be more easily analysed by applying various simplifications. For example: Assume the spokes, shaft and hub have zero moments of inertia, and the flywheel's moment of inertia is from the rim alone.

moment inertia of a flywheel lab report 1. moment of intertia of aflywheel. egerton university faculty of engineering and technology department of industrial and вЂ¦ Moment Of Inertia Of Flywheel: Aim : The aim of this experiment is to measure the moment of inertia of a flywheel. Diagram : Materials : - A heavy flywheel mounted on an axle on suitable bearings. - A ruler Vernier calipers - Thin cord Stopwatch . Procedure : - Set up the apparatus as shown in the diagram and allow the weight to fall a height h. - The length of twine fixed to the small mass

8. Rotational Motion: Moment of Inertia 8.3 Key Concepts You can п¬Ѓnd a summary on-line at Hyperphysics.1 Look for keywords: momentofinertia,torque,angularacceleration The purpose of this experiment is to find the rotational inertia of a point mass experimentally and to verify that this value corresponds to the calculated theoretical value. Theory: Theoretically, the rotational inertia, I, of a point mass is given by I = MR2, where M is the mass, R is the distance the mass is from the axis of rotation. To find the rotational inertia experimentally, a known

27/06/2016В В· а¦«а§Ќа¦Іа¦ѕа¦‡ а¦№а§Ѓа¦‡а¦Іа§‡а¦° а¦ња¦Ўа¦ја¦¤а¦ѕа¦° а¦­а§Ќа¦°а¦ѕа¦®а¦• а¦Ёа¦їа¦°а§Ќа¦Ја¦Їа¦ј (Moment of Inertia of flywheel) HSC Practical Science Workshop - Duration: 9:10. Experiment 7 Rotational Motion: Moment of Inertia 7.1 Objectives вЂў Familiarizeyourselfwiththeconceptofmomentofinertia,I,which

Moment of inertia of a Flywheel OBJECT: To determine the moment of inertia of a flywheel about its own axis of rotation. Apparatus used: Flywheel, a few masses, a strong and thin string, stop watch, vernier callipers. Formula used: The moment of inertia of a flywheel is given by following formula: ПЂ ПЂ = = ПЂ ПЂ П‰= Г— вЋџвЋџ вЋ  вЋћ вЋњвЋњ вЋќ вЋ› + в€’ = П‰ вЋџвЋџ 26/11/2018В В· Aim :- To find out Moment of Inertia of Flywheel. Link of Vernier Caliper = https://youtu.be/xliGyZwEUG8 LIKE SHARE SUBSCRIBE ABOUT:-In this Robotic World you need

16.3 Rotational Kinetic Energy and Moment of Inertia 16.3.1 Rotational Kinetic Energy and Moment of Inertia We have already defined translational kinetic energy for a point object as K = (1/ 2)mv2; we now define the rotational kinetic energy for a rigid body about its center of mass. 27/06/2016В В· а¦«а§Ќа¦Іа¦ѕа¦‡ а¦№а§Ѓа¦‡а¦Іа§‡а¦° а¦ња¦Ўа¦ја¦¤а¦ѕа¦° а¦­а§Ќа¦°а¦ѕа¦®а¦• а¦Ёа¦їа¦°а§Ќа¦Ја¦Їа¦ј (Moment of Inertia of flywheel) HSC Practical Science Workshop - Duration: 9:10.

Experiment 8 Moment of inertia and angular acceleration Related topics Angular velocity, rotary motion, moment, moment of inertia of a disc, moment of inertia of a bar, moment of inertia of a mass point. Task A moment acts on a body which can be rotated about a bearing without friction. The moment of inertia is determined from the angular acceleration. Problems From the angular acceleration Moment of inertia of a Flywheel OBJECT: To determine the moment of inertia of a flywheel about its own axis of rotation. Apparatus used: Flywheel, a few masses, a strong and thin string, stop watch, vernier callipers. Formula used: The moment of inertia of a flywheel is given by following formula: ПЂ ПЂ = = ПЂ ПЂ П‰= Г— вЋџвЋџ вЋ  вЋћ вЋњвЋњ вЋќ вЋ› + в€’ = П‰ вЋџвЋџ

## Last Revised on January 8 2015 EXPERIMENT 4 SOLID MECHANICS TUTORIAL FLYWHEELS AND TURNING. 26/11/2018В В· Aim :- To find out Moment of Inertia of Flywheel. Link of Vernier Caliper = https://youtu.be/xliGyZwEUG8 LIKE SHARE SUBSCRIBE ABOUT:-In this Robotic World you need, International Journal of Advances in Science Engineering and Technology, ISSN: 2321-9009 Volume- 1, Issue- 2, Oct-2013 Application And Use Of Flywheel In Engineering: Overview 87 where E is t e energy stored by the flywheel, Г± Г  Г” Г« and Г± Г  Гњ ГЎare the maximum and minimum operation speed of the flywheel, and J is the moment.

### maxwell.ict.griffith.edu.au

Moment of Inertia of Flywheel Experiment YouTube. EXPERIMENT 9 MOMENT OF INERTIA I. THEORY The purpose of this experiment is to determine the experimental moment of inertia of a disk and of a ring by using the principle of conservation of energy. The experimental moment of inertia will be compared with the theoretical moment of inertia for each. The theoretical moments of inertia of the bodies used as unknowns in this experiment may be, A rimmed flywheel has a rim, a hub, and spokes. Calculation of the flywheel's moment of inertia can be more easily analysed by applying various simplifications. For example: Assume the spokes, shaft and hub have zero moments of inertia, and the flywheel's moment of inertia is from the rim alone..

The purpose of this experiment is to find the rotational inertia of a point mass experimentally and to verify that this value corresponds to the calculated theoretical value. Theory: Theoretically, the rotational inertia, I, of a point mass is given by I = MR2, where M is the mass, R is the distance the mass is from the axis of rotation. To find the rotational inertia experimentally, a known Experiment 8 Moment of inertia and angular acceleration Related topics Angular velocity, rotary motion, moment, moment of inertia of a disc, moment of inertia of a bar, moment of inertia of a mass point. Task A moment acts on a body which can be rotated about a bearing without friction. The moment of inertia is determined from the angular acceleration. Problems From the angular acceleration

Experiment: Determination of moment of Inertia of a Fly Wheel. Theory: The flywheel consists of a weighty round disc/massive wheel fixed with a strong axle projecting on either side.The axle is mounted on ball bearings on two fixed supports. There is a little peg on the axle. One end of a cord is loosely looped around the peg and its other end carries the weight-hanger. Last Revised on January 8, 2015 Grade: _____ EXPERIMENT 4 Moment of Inertia & Oscillations 0. Pre-Laboratory Work [2pts] 1. In Section 3.1, describe briefly the steps you take to make sure your apparatus setup is done correctly and the timer is working properly. The Procedure says, вЂњIt should be three passes

UNIT 4 FLYWHEEL Flywheel Structure 4.1 Introduction Objectives 4.2 Dynamically Equivalent System 4.3 Turning Moment Diagram 4.3.1 Turning Moment Diagram of a Single Cylinder 4-storke IC Engine 4.3.2 Turning Moment Diagram of a Multicylinder 4-stroke IC Engine 4.3.3 Turning Moment Diagram of a Single Cylinder Double Acting Steam Engine 4.4 Fluctuation of Energy and Speed 4.5 Flywheel Design 4.5 The purpose of this experiment is to find the rotational inertia of a point mass experimentally and to verify that this value corresponds to the calculated theoretical value. Theory: Theoretically, the rotational inertia, I, of a point mass is given by I = MR2, where M is the mass, R is the distance the mass is from the axis of rotation. To find the rotational inertia experimentally, a known

A flywheel with axle mounted some height above floor level, slotted mass on hanger, a cord, a 2m rule and a stop watch. Figure: Experimental apparatus for the moment of inertia experiment. 3.0 Theory: In this experiment a flywheel at rest with a mass m hanging ( in a gravitational field of constant g) on the end of a cord and also the mass is 16.3 Rotational Kinetic Energy and Moment of Inertia 16.3.1 Rotational Kinetic Energy and Moment of Inertia We have already defined translational kinetic energy for a point object as K = (1/ 2)mv2; we now define the rotational kinetic energy for a rigid body about its center of mass.

In this experiment, data is taken using rotational motion sensors. The rotational motion sensors are interfaced to a computer and the data is analysed using the DataStudio software. THEORY If a torque is applied to a body which is constrained to rotate about a fixed point then the body will undergo and angular acceleration given by where I I is the moment of inertia about the axis through the energy to calculate its moment of inertia. Apparatus ===== Flywheel String Slotted mass on hanger Stop-watch Vernier caliper Metre ruler Theory ===== The rotational kinetic energy can be defined by the equation K=1/2 I ГЏвЂ°2. Where I is the moment of inertia of the body about the axis of rotation. In this experiment, the flywheel rotates

Objective: To determine moment intertie of flywheel Apparatus and Diagram: 1. Mass 2. Stop Watch 3. Measuring tape Diagram: Procedure: First a steel and aluminium flywheel was wounded by a cord. A hook was attached to a cord and mass was putted on Physics 2107 Moments of Inertia Experiment 1 Read the following background/setup and ensure you are familiar with the theory required for the experiment. Please also fill in the missing equations 5, 7 and 9. Background/Setup The moment of inertia, I, of a body is a measure of how hard it is to get it rotating about some axis.

International Journal of Advances in Science Engineering and Technology, ISSN: 2321-9009 Volume- 1, Issue- 2, Oct-2013 Application And Use Of Flywheel In Engineering: Overview 87 where E is t e energy stored by the flywheel, Г± Г  Г” Г« and Г± Г  Гњ ГЎare the maximum and minimum operation speed of the flywheel, and J is the moment Moment Of Inertia Of Flywheel: Aim : The aim of this experiment is to measure the moment of inertia of a flywheel. Diagram : Materials : - A heavy flywheel mounted on an axle on suitable bearings. - A ruler Vernier calipers - Thin cord Stopwatch . Procedure : - Set up the apparatus as shown in the diagram and allow the weight to fall a height h. - The length of twine fixed to the small mass

The flywheel consists of a heavy circular disc or wheel with a strong axle mounted on ball bearings on two fixed supports.The wheel can be rotated in a vertical plane about the horizontal axle.It is used to determine the moment of inertia. Physics 2107 Moments of Inertia Experiment 1 Read the following background/setup and ensure you are familiar with the theory required for the experiment. Please also fill in the missing equations 5, 7 and 9. Background/Setup The moment of inertia, I, of a body is a measure of how hard it is to get it rotating about some axis.

(PDF) EXPERIMENT U4 MOMENT OF INERTIA OF FLYWHEELS. Moment of inertia of a Flywheel OBJECT: To determine the moment of inertia of a flywheel about its own axis of rotation. Apparatus used: Flywheel, a few masses, a strong and thin string, stop watch, vernier callipers. Formula used: The moment of inertia of a flywheel is given by following formula: ПЂ ПЂ = = ПЂ ПЂ П‰= Г— вЋџвЋџ вЋ  вЋћ вЋњвЋњ вЋќ вЋ› + в€’ = П‰ вЋџвЋџ, When an increase in torque occurs, the flywheel will speed up and absorb energy. The greater the moment of inertia, the more energy it will absorb. The result is that it speeds up less than it would do with a smaller moment of inertia. When the torque decreases, the flywheel will slow down but the inertia of the system will limit the amount it.

### Flywheel for Moment of Inertia YouTube Last Revised on January 8 2015 EXPERIMENT 4. 22/04/2014В В· Description, Theoretical and Experimental Studies on a Cylinder Containing Granules Rolling Down an Inclined Plane Short title: Cylinder containing granules rolling down an incline Edy Wibowo, Sutisna, Mamat Rokhmat, Elfi Yuliza, Khairurrijal, and Mikrajuddin Abdullah(a) Department of Physics Bandung Institute of Technology.

### Physics 2107 Moments of Inertia Experiment 1 Moment of Inertia of Flywheel (written method in practical. Last Revised on January 8, 2015 Grade: _____ EXPERIMENT 4 Moment of Inertia & Oscillations 0. Pre-Laboratory Work [2pts] 1. In Section 3.1, describe briefly the steps you take to make sure your apparatus setup is done correctly and the timer is working properly. The Procedure says, вЂњIt should be three passes https://en.m.wikipedia.org/wiki/Flywheel Rotational Inertia of a Point Mass Saddleback College Physics Department, adapted from PASCO Scientific PURPOSE The purpose of this experiment is to find the rotational inertia of a point mass experimentally and to verify that this value corresponds to the calculated theoretical value. EQUIPMENT. Experiment 7 Rotational Motion: Moment of Inertia 7.1 Objectives вЂў Familiarizeyourselfwiththeconceptofmomentofinertia,I,which Equation (8) gives the moment of inertia of the entire system that is rotating. To determine the moment of inertia of the two masses alone without any supports (I m), the experiment is done with (I t) and without (I o) the masses. This is similar to determining the mass of water in a beaker by measuring the beaker's mass with and without water.

The flywheel consists of a heavy circular disc or wheel with a strong axle mounted on ball bearings on two fixed supports.The wheel can be rotated in a vertical plane about the horizontal axle.It is used to determine the moment of inertia. 05/03/2018В В· In this video , we are going to learn practical of Moment of Inertia of Flywheel (written method in practical file). Maxwell's Needle Experiment (written method in practical file) https://www

Experiment: Determination of moment of Inertia of a Fly Wheel. Theory: The flywheel consists of a weighty round disc/massive wheel fixed with a strong axle projecting on either side.The axle is mounted on ball bearings on two fixed supports. There is a little peg on the axle. One end of a cord is loosely looped around the peg and its other end carries the weight-hanger. 17/11/2017В В· 8.01x - Lect 19 - Rotating Objects, Moment of Inertia, Rotational KE, Neutron Stars - Duration: 41:00. Lectures by Walter Lewin. They will make you в™Ґ Physics. 225,837 views

05/03/2018В В· In this video , we are going to learn practical of Moment of Inertia of Flywheel (written method in practical file). Maxwell's Needle Experiment (written method in practical file) https://www A rimmed flywheel has a rim, a hub, and spokes. Calculation of the flywheel's moment of inertia can be more easily analysed by applying various simplifications. For example: Assume the spokes, shaft and hub have zero moments of inertia, and the flywheel's moment of inertia is from the rim alone.

A rimmed flywheel has a rim, a hub, and spokes. Calculation of the flywheel's moment of inertia can be more easily analysed by applying various simplifications. For example: Assume the spokes, shaft and hub have zero moments of inertia, and the flywheel's moment of inertia is from the rim alone. A flywheel with axle mounted some height above floor level, slotted mass on hanger, a cord, a 2m rule and a stop watch. Figure: Experimental apparatus for the moment of inertia experiment. 3.0 Theory: In this experiment a flywheel at rest with a mass m hanging ( in a gravitational field of constant g) on the end of a cord and also the mass is

Experiment 6 Introduction In this experiment, you will determine the moment of inertia for a metal disk by studying how its angular acceleration changes with the magnitude of the torque applied to it by a hanging mass. You will also determine the torque exerted on the disk by friction at its axis. 22/04/2014В В· Description

Moment of inertia of a Flywheel OBJECT: To determine the moment of inertia of a flywheel about its own axis of rotation. Apparatus used: Flywheel, a few masses, a strong and thin string, stop watch, vernier callipers. Formula used: The moment of inertia of a flywheel is given by following formula: ПЂ ПЂ = = ПЂ ПЂ П‰= Г— вЋџвЋџ вЋ  вЋћ вЋњвЋњ вЋќ вЋ› + в€’ = П‰ вЋџвЋџ A History of Inertia Aristotle The property that we now call inertia (explained very clearly by FeynmanвЂ™s father in the quotation) remained hidden from view for a long time. The Greek philosopher Aristotle, for example, said that after a force is applied to objects, they tend to come to a rest

As the flywheel completes N further turns, its original rotational kinetic energy is transferred into friction loss. For the known mass density & geometry of the material used, in SI system of units the unit of moment of inertia is Kg.m2 (kilogram meter square) Procedure to perform the Experiment : 1. The flywheel is set with the axle of the flywheel horizontal. A polystyrene tile was placed on the floor to вЂ¦ Physics 4A Lab 11: MOMENT OF INERTIA The object of this experiment is to make a dynamic measurement of the moment of inertia of a ring about its cylinder axis, and to compare the value obtained with the theoretical value calculated from measurements of the ringвЂ™s mass and inside and outside radii. Method The setup for this experiment is shown