Figure 1.1 Torsional Pendulum

Similar documents
Figure 3.1 Young s modulus - Non-uniform bending

Figure 7.1 Ultrasonic Interferometer

Dr. Radhakrishnan A N Assistant Professor of Physics GPTC, Vechoochira

OSCILLATIONS OF A SPRING-MASS SYSTEM AND A TORSIONAL PENDULUM

PHYSICS PRACTICALS MANUAL

Members Subjected to Torsional Loads

LANMARK UNIVERSITY OMU-ARAN, KWARA STATE DEPARTMENT OF MECHANICAL ENGINEERING COURSE: MECHANICS OF MACHINE (MCE 322). LECTURER: ENGR.

PHYSICS PRACTICALS MANUAL GE6163 PHYSICS LABORATORY I

Energy Considerations

3 Hours/100 Marks Seat No.

THE SCREW GAUGE. AIM: To learn to use a Screw Gauge and hence use it to find the dimensions of various regular materials given.

Chapter Units and Measurement

Dhanalakshmi College of Engineering Manimangalam, Tambaram, Chennai

3B SCIENTIFIC PHYSICS

Stress Analysis Lecture 3 ME 276 Spring Dr./ Ahmed Mohamed Nagib Elmekawy

COMPOUND PENDULUM. AIM: 01. To determine the radius of gyration k of given compo pendulum. 02. To verify the relation

Simple Harmonic Motion

Engineering Mechanics Prof. U. S. Dixit Department of Mechanical Engineering Indian Institute of Technology, Guwahati Introduction to vibration

Index/ Instructor s evaluation of experiment reports Name of experiment Date of performance

Mechanical Design in Optical Engineering

The Torsion Pendulum (One or two weights)

Experiment: Torsion Test Expected Duration: 1.25 Hours

Torsion Stresses in Tubes and Rods

Inclined plane with protractor and pulley, roller, weight box, spring balance, spirit level, pan and thread.

Experiment Two (2) Torsional testing of Circular Shafts

For a rigid body that is constrained to rotate about a fixed axis, the gravitational torque about the axis is

PHYSICS PRACTICALS MANUAL

Physics 2001/2051 The Compound Pendulum Experiment 4 and Helical Springs

Moment of inertia of different bodies

Lab Exercise #3: Torsion

PHYSICS LAB Experiment 9 Fall 2004 THE TORSION PENDULUM

DEPARTMENT OF MECHANICAL ENIGINEERING, UNIVERSITY OF ENGINEERING & TECHNOLOGY LAHORE (KSK CAMPUS).

KNIFE EDGE FLAT ROLLER

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

General Physics I. Lecture 12: Applications of Oscillatory Motion. Prof. WAN, Xin ( 万歆 )

MECHANICAL PROPERTIES OF SOLIDS

ET-105(A) : PHYSICS. Show that only an infinitesimal rotation can be regarded as a vector.

Varuvan Vadivelan. Institute of Technology LAB MANUAL. : 2013 : B.E. MECHANICAL ENGINEERING : III Year / V Semester. Regulation Branch Year & Semester

LABORATORY MANUAL DYNAMICS OF MACHINE ME-314-E

MECE 3321: MECHANICS OF SOLIDS CHAPTER 5

Physics Waves & Oscillations. Mechanics Lesson: Circular Motion. Mechanics Lesson: Circular Motion 1/18/2016. Spring 2016 Semester Matthew Jones

Gravitational Constant Brett Waite and Daniel Klinge

AS Physics Past Paper Questions

Equilibrium. the linear momentum,, of the center of mass is constant

Oscillations. Oscillations and Simple Harmonic Motion

Class XI Physics Syllabus One Paper Three Hours Max Marks: 70

B. Sc. I YEAR Practical Physics

PHYSICS 221 SPRING 2014

M. Vable Mechanics of Materials: Chapter 5. Torsion of Shafts

1. What would be the value of F1 to balance the system if F2=20N? 20cm T =? 20kg

Engineering Science. 1 Be able to determine the behavioural characteristics of elements of static engineering systems

WORK SHEET FOR MEP311

Lecture 18. In other words, if you double the stress, you double the resulting strain.

[7] Torsion. [7.1] Torsion. [7.2] Statically Indeterminate Torsion. [7] Torsion Page 1 of 21

IIT-JEE 2012 PAPER - 1 PART - I : PHYSICS. Section I : Single Correct Answer Type

EDEXCEL NATIONAL CERTIFICATE/DIPLOMA SCIENCE FOR TECHNICIANS OUTCOME 1 - STATIC AND DYNAMIC FORCES TUTORIAL 3 STRESS AND STRAIN

twenty one concrete construction: shear & deflection ARCHITECTURAL STRUCTURES: FORM, BEHAVIOR, AND DESIGN DR. ANNE NICHOLS SUMMER 2014 lecture

TWISTING (TORSIONAL) STIFFNESS. Barry T. Cease Cease Industrial Consulting

Chapter 14 Oscillations. Copyright 2009 Pearson Education, Inc.

MECHANICS OF MATERIALS

Instruction Manual. Physics Laboratory MP-101. Applied Physics Department. Sardar Vallabhbhai National Institute of Technology, Surat

Chapter 5 Torsion STRUCTURAL MECHANICS: CE203. Notes are based on Mechanics of Materials: by R. C. Hibbeler, 7th Edition, Pearson

UNITS AND MEASUREMENTS

Theory & Practice of Rotor Dynamics Prof. Rajiv Tiwari Department of Mechanical Engineering Indian Institute of Technology Guwahati

The problem of transmitting a torque or rotary motion from one plane to another is frequently encountered in machine design.

Mechanical Principles

Phys 270 Final Exam. Figure 1: Question 1

CIVL222 STRENGTH OF MATERIALS. Chapter 6. Torsion

Using a Simple Pendulum plot L T and L T 2 graphs, hence find the effective length of second's pendulum using appropriate graph.

PHYSICS PRACTICALS MANUAL

4. SHAFTS. A shaft is an element used to transmit power and torque, and it can support

DIVIDED SYLLABUS ( ) - CLASS XI PHYSICS (CODE 042) COURSE STRUCTURE APRIL

Name Date: Course number: MAKE SURE TA & TI STAMPS EVERY PAGE BEFORE YOU START. Grade: EXPERIMENT 4

2. Determine the deflection at C of the beam given in fig below. Use principal of virtual work. W L/2 B A L C

The University of Hong Kong Department of Physics. Physics Laboratory PHYS3350 Classical Mechanics Experiment No The Physical Pendulum Name:

Rotation. I. Kinematics - Angular analogs

CHAPTER 8: ROTATIONAL OF RIGID BODY PHYSICS. 1. Define Torque

Mechanical Engineering Ph.D. Preliminary Qualifying Examination Solid Mechanics February 25, 2002

Part Two: Earlier Material

Human Arm. 1 Purpose. 2 Theory. 2.1 Equation of Motion for a Rotating Rigid Body

Lab M4: The Torsional Pendulum and Moment of Inertia

PDDC 1 st Semester Civil Engineering Department Assignments of Mechanics of Solids [ ] Introduction, Fundamentals of Statics

March 24, Chapter 4. Deflection and Stiffness. Dr. Mohammad Suliman Abuhaiba, PE

Essential Physics I. Lecture 9:

Laboratory Exercise M-2 Power measurements

Torsion Pendulum Experiment

Introduction. Physics E-1a Expt 5: The Sweet Spot Fall 2006

DP Physics Torque Simulation

SECOND ENGINEER REG. III/2 APPLIED MECHANICS

Name: Date: Period: AP Physics C Rotational Motion HO19

Torsion of Shafts Learning objectives

Coupled Torsion Pendulum


AERO 214. Lab II. Measurement of elastic moduli using bending of beams and torsion of bars

Sample Question Paper

This equation of motion may be solved either by differential equation method or by graphical method as discussed below:

Simple Harmonic Motion - MBL

Transweb Educational Services Pvt. Ltd Tel:

5. What is the moment of inertia about the x - x axis of the rectangular beam shown?


Transcription:

Torsional Pendulum Torsional Pendulum Torsional Pendulum (without masses) (with masses at d1 (with masses at d close to the axis) away from the axis) Figure 1.1 Torsional Pendulum Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 1

Rigidity Modulus - Torsional Pendulum Expt. No. : Date: AIM To find the moment of inertia of the disc and the rigidity modulus of the material of the suspension wire subjected to torsional oscillations. GENERAL OBJECTIVE To assess the shear elastic behavior of a given material using torsional pendulum SPECIFIC OBJECTIVES 1. To measure the time period of the torsional pendulum. To calculate the moment of inertia of the disc 3. To measure the radius of the wire using screw gauge 4. To determine the rigidity modulus of the wire using the formula APPARATUS REQUIRED Metallic disc Brass/steel wire Symmetrical masses Stop clock Metre scale Screw gauge Stand FORMULA 1. Moment of inertia of the disc I T0 m( d d1 ) ( T T ) (kg m ) 1 Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam

TABLE I L To find T O and ( T T0 T 1 ) S.No Length of the suspension wire L (10 - m) Distance between the masses (10 - m) Time for 10 oscillations(s) Trial I Trial II Mean Period T (s) L / T0 10 - (m/s ) T0 ------------ ( T - T1 ) No mass T0 = 1 d1 = T1 = d = T = No mass T0 = d1 = T1 = d = T = L Mean =.. 10 - m/s T O Mean ( T T0 T 1 = ) Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 3

. Rigidity modulus of the material of the wire n 8 I L 4 r T (N/m ) 0 Symbol Explanation Unit I Moment of inertia of the disc kg m m Value of one of the two masses placed on the disc kg d 1 Closest distance between the center of mass and the wire m d Farthest distance between the center of mass and the wire m T 0 Time period without any mass placed on the disc s T 1 Time period when two masses are placed at a distance d 1 s T Time period when two masses are placed at a distance d s n rigidity modulus of the material of the suspension wire N/m L length of the suspension wire m r radius of the suspension wire m PREREQUISITE KNOWLEDGE 1. Torsional oscillation It is the periodic oscillation produced by twisting the wire. Torsional pendulum A body suspended from a rigid support by means of a thin elastic wire is called a torsional pendulum 3. Rigidity modulus Rigidity modulus is defined as ratio of shearing stress to shearing strain 4. Moment of Inertia It is a measure of a body s tendency to resist the angular acceleration 5. Torque The product of moment of inertia and angular acceleration (or) the rate of change of angular momentum Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 4

LEAST COUNT FOR SCREW GAUGE Least Count (LC) = Pitch Number of head scale divisions Pitch = Distance moved Number of rotations given = 5 mm 5 = 1mm LC = 1 mm 100 = 0.01mm TABLE - II To measure the radius of the wire using screw gauge Zero Error (ZE) : division Zero Correction (ZC) : mm S. No. 1. Pitch Scale Reading PSR ( 10-3 m) Head Scale Coincidence HSC (divisions) Observed Reading OR = PSR + ( HSC LC ) (10-3 m) Correct Reading CR = OR ± ZC ( 10-3 m). 3. 4. 5. Mean diameter (d) =. 10-3 m Radius (r = d/) =. 10-3 m Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 5

PROCEDURE 1. One end of the material of the wire is clamped using a vertical chuck. A metallic disc is attached to the other end of the wire.. The length of the suspension wire is fixed to a particular value. The disc is slightly twisted so that the disc executes torsional oscillations. 3. The time taken for ten oscillations is noted using a stop clock. Two trials are taken for each length. The mean time period T 0 is found. 4. Now two equal masses are placed on either side of the center of the disc close to the suspension wire. 5. The closest distance d 1 from the center of the mass to the center of the suspension wire is found. 6. Now the disc is made to execute torsional oscillations. The time taken for 10 oscillations is measured and the time period T 1 is calculated. 7. Now the two equal masses are placed at the edges of the disc. The farthest distance d from the center of the mass to the center of the suspension wire is found. 8. Now the disc is made to execute torsional oscillations. The procedure is repeated and the time period T is calculated. 9. The radius of the wire(r) is found using a screw gauge. Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 6

OBSERVATION Value of one of the masses placed on the disc m =. 10-3 kg The closest distance between the suspension wire and the center of the mass d 1 =. 10 - m The farthest distance between the suspension wire and the center of the mass d =. 10 - m Radius of the suspension wire r =. 10-3 m Mean value of L/T 0 =. 10 - m/s Mean value of T0 /( T - T1 ) =. CALCULATION Moment of inertia of the disc I T0 m( d d1 ) ( T T ) kg m 1 Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 7

RESULT The moment of inertia of the disc I =. 10-3 kg m The rigidity modulus of the material of the given wire n =. 10 10 N/m APPLICATIONS Torsional pendulum clocks, shafts in automobiles VIVA VOCE QUESTIONS 1. Why is it called torsion pendulum?. What happens to the period of oscillation when the length of suspension wire is decreased? 3. Define moment of inertia. 4. If the radius of the wire is doubled, what happens to the moment of inertia? 5. Is it possible to determine the rigidity modulus other than solids? STIMULATING QUESTIONS 1. Why is a hollow shaft stronger than a solid shaft of same mass and material?. Identify the role of moment of inertia of the clothes from the beginning to end of cycle in washing machine. Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 8

Rigidity modulus of the material of the wire n 8 I L 4 r T N/m 0 Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 9

Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 10

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback