Saturday, March 29, 2014

Dr. MGR University: Physiotherapy Interventions October 2013 Question Paper

Dr. MGR University: Physiotherapy Interventions October 2013 Question Paper
Are you looking for latest question paper of The Tamil Nadu Dr. MGR University question paper? Here's a question paper of PHYSIOTHERAPY INTERVENTIONS for the second year PG Physiotherapy 2013 exams. Read on to get it.



[LD 131]                                                   OCTOBER 2013                     Sub. Code: 8131
MASTER OF PHYSIOTHERAPY DEGREE EXAMINATIONS 
SECOND YEAR 
BRANCH I – PHYSIOTHERAPY IN ORTHOPAEDICS 
PAPER II – PHYSIOTHERAPY INTERVENTIONS (SPECIALITY - II) 
Q.P. Code : 278131 
Time: Three Hours                                                            Maximum: 100 marks 
Answer ALL Questions 
I. Elaborate on: (2 x 20 = 40) 
 1. Write an essay on the Principles and management of Neurodynamics.
 2. Role of Physiotherapy in the management of Rotator Cuff lesion.

II. Write notes on: (10 x 6 = 60) 
 1. Sudecks atrophy.
 2. Stabilisation Exercises for low back.
 3. Piriformis syndrome.
 4. Osteoarthritis of bilateral knee.
 5. Special test for biceps pathology .
 6. Management of Compound fracture.
 7. Congenital flat foot management.
 8. Limb Length discrepancy and its management.
 9. Prevention of deformities.
 10. Surgical Physiotherapy Management of Dequiverans Diseases.

Friday, March 28, 2014

Thermodynamics for IC Engineering - IC1701 1st sem M.E syllabus for IC Engineering under Anna University, Chennai

Thermodynamics for IC Engineering - IC1701 1st sem M.E syllabus for IC Engineering under Anna University, Chennai
Looking for syllabus of "Thermodynamics for IC Engineering" ? It belongs to first semester M.E IC Engineering under Anna University, Chennai. It's regulation 2013 curriculum and syllabus. Read on to get your required material for syllabus. 

IC7101              THERMODYNAMICS FOR IC ENGINEERING        L T P C        3 1 0 4

AIM:
To enrich the knowledge of students in thermodynamics

OBJECTIVES:

  • To achieve an understanding of basic principle and scope of thermodynamics.
  • To predict the availability and irreversibility associated with the thermodynamic processes.
  • To analyse the properties of ideal and real gas mixtures and to understand the basic concepts of thermal systems

UNIT I             THERMODYNAMIC PROPERTY RELATIONS             9
Thermodynamic Potentials, Maxwell relations, Generalised relations for changes in Entropy, Internal
Energy and Enthalpy, Generalised Relations for Cp and Cv, Clausius Clayperon Equation, Joule- Thomson Coefficient, Bridgeman Tables for Thermodynamic Relations.

UNIT II        REAL GAS BEHAVIOUR AND MULTI-COMPONENT SYSTEMS       9
Equations of State (mention three equations), Fugacity, Compressibility, Principle of Corresponding
States, Use of generalised charts for enthalpy and entropy departure, fugacity coefficient, Lee-Kesler
generalised three parameter tables. Fundamental property relations for systems of variable
composition, partial molar properties, Real gas mixtures, Ideal solution of real gases and liquids,
Equilibrium in multi-phase systems, Gibbs phase rule for non-reactive components.

UNIT III                          CHEMICAL AVAILABILITY                               9
Introduction, Reversible work, Availability, Irreversibility and Second-Law Efficiency for a closed
System and Steady-State Control Volume. Availability Analysis of Simple Cycles. Chemical
availability, Environmental state, Air-conditioning processes. Fuel Chemical availability, availability
analysis of chemical processes – steam power plant, combustion and heat transfer losses, preheated
inlet air, problems.

UNIT IV                  FUEL – AIR CYCLES AND THEIR ANALYSIS                    9
Ideal gas laws and properties of Mixtures, Combustion Stoichiometry, Application of First Law of
Thermodynamics – Heat of Reaction – Enthalpy of Formation – Adiabatic flame temperature. Second
law of Thermodynamics applied to combustion – entropy, maximum work and efficiency

UNIT V                       THERMO CHEMISTRY                       9
Chemical equilibrium: - Equilibrium combustion products. Dynamic properties of working fluids: - Unburned mixture – Low temperature combustion products – High temperature combustion products,
problems.
T=15, TOTAL: 60 PERIODS

OUTCOME: 
On successful completion of this course the student will be able to apply the law of
thermodynamics to thermal systems.

REFERENCES:
1. Kenneth Wark., J. R, Advanced Thermodynamics For Engineers, McGraw-Hill Inc., 1995.
2. Yunus A. Cengel and Michael A . Boles, Thermodynamics, McGraw-Hill Inc., 2006.
3. B.P. Pundir, I.C. engine combustion and emissions.
4. Bejan, A., Advanced Engineering Thermodynamics, John Wiley and Sons, 1988.
5. Holman,J.P., Thermodynamics, Fourth Edition, McGraw-Hill Inc., 1988
6. Smith, J.M. and Van Ness., H.C., Introduction to Chemical Engineering Thermodynamics, Fourth
Edition, McGraw-Hill Inc., 1987.6
7. Sonntag, R.E., and Van Wylen, G, Introduction to Thermodynamics, Classical and Statistical Third
Edition, , John Wiley and Sons, 1991
8. Sears, F.W. and Salinger G.I., Thermodynamics, Kinetic Theory and Statistical Thermodynamics,
Third Edition, Narosa Publishing House, New Delhi, 1993.
9. DeHotf, R.T., Thermodynamics in Materials Science, McGraw-Hill Inc., 1993.
10. Rao, Y.V.C., Postulational and Statistical Thermodynamics, Allied Publisher Limited, New Delhi,
1994

TE7101 - Advanced Heat Transfer Syllabus - Anna University

TE7101 - Advanced Heat Transfer Syllabus - Anna University
Looking for Anna University First Semester syllabus for M.E IC Engines? Here's available the first semester syllabus regulation 2013 for the "Advanced Heat Transfer". Read On!

TE7101                   ADVANCED HEAT TRANSFER          L T P C                3 1 0 4

AIM:
The course is intended to build up necessary fundamentals for the understanding of the physical
behavior of conduction and convection.

OBJECTIVES:
To develop the ability to use the heat transfer concepts for various applications like finned systems, turbulence flows, high speed flows.
To analyse the thermal analysis and sizing of heat exchangers and to learn the heat transfer
coefficient for compact heat exchanges.
To achieve an understanding of the basic concepts of phase change processes and mass
transfer.

UNIT I CONDUCTION AND RADIATION HEAT TRANSFER 10
One dimensional energy equations and boundary condition - three-dimensional heat conduction
equations - extended surface heat transfer - conduction with moving boundaries - radiation in gases
and vapour Gas radiation and radiation heat transfer in enclosures containing absorbing and emitting
media – interaction of radiation with conduction and convection.

UNIT II TURBULENT FORCED CONVECTIVE HEAT TRANSFER 10
Momentum and energy equations - turbulent boundary layer heat transfer - mixing length concept -
turbulence model – k Є model - analogy between heat and momentum transfer – Reynolds, Colburn,
Prandtl turbulent flow in a tube - high speed flows.

UNIT III PHASE CHANGE HEAT TRANSFER AND HEAT EXCHANGER 8
Condensation with shears edge on bank of tubes - boiling – pool and flow boiling - heat exchanger -Є
– NTU approach and design procedure - compact heat exchangers.

UNIT IV NUMERICAL METHODS IN HEAT TRANSFER 9
Finite difference formulation of steady and transient heat conduction problems – discretization
schemes – explicit - Crank Nicolson and fully implicit schemes - control volume formulation -steady
one-dimensional convection and diffusion problems - calculation of the flow field – SIMPLER
Algorithm.

UNIT V MASS TRANSFER AND ENGINE HEAT TRANSFER CORRELATION 8
Mass transfer - vaporization of droplets - combined heat and mass transfers - heat transfer
correlations in various applications like I.C. engines - compressors and turbines.

T=15, TOTAL: 60 PERIODS

OUTCOME: On successful completion of this course the student will be able to apply the law of
thermodynamics to engines.

REFERENCES
1. Yunus A.Cengal, Heat and Mass Transfer – A practical Approach, 3rd edition, Tata McGraw - Hill,
2007.
2. Holman.J.P, Heat Transfer, Tata Mc Graw Hill, 2002.
3. Ozisik. M.N., Heat Transfer – A Basic Approach, McGraw-Hill Co., 1985
4. Incropera F.P. and DeWitt. D.P., Fundamentals of Heat & Mass Transfer, John Wiley & Sons,
2002.
5. Nag.P.K, Heat Transfer, Tata McGraw-Hill, 2002
6. Ghoshdastidar. P.S., Heat Transfer, Oxford University Press, 2004
7. Yadav, R., Heat and Mass Transfer, Central Publishing House, 1995.

Anna University: M.E Internal Combustion Engines Syllabus

Anna University: M.E Internal Combustion Engines Syllabus
Are you looking for M.E Regulation 2009 curriculum and syllabus for the course IC Engines? Here's a list of subjects with syllabus. Go on to get!

University: Anna University

Course: M.E Internal Combustion Engineering

Regulation: 2013

Semester: 1 to 4 (I to IV)

First (1st) Semester

Subjects: (Theory)

  1. MA7169 - Advanced Numerical Methods
  2. TE7101 - Advanced Heat Transfer
  3. IC7101 - Thermodynamics for IC Engineering
  4. IC7102 - Alternative Fuels for IC Engines
  5. IC7103 - Combustion and Emission in Engines
Subjects (Practical): IC7111 - I.C. Engineering Practices Laboratory

Syllabus for MA7169 - Advanced Numerical Methods




MA7169                  ADVANCED NUMERICAL METHODS                     L T P C          3 1 0 4
OBJECTIVES: To impart knowledge on numerical methods that will come in handy to solve numerically the problems that arise in engineering and technology. This will also serve as a precursor for future research.

UNIT I ALGEBRAIC EQUATIONS (9+3)
Systems of linear equations: Gauss Elimination method, pivoting techniques, Thomas algorithm for
tridiagonal system – Jacobi, Gauss Seidel, SOR iteration methods - Systems of nonlinear equations:
Fixed point iterations, Newton Method, Eigenvalue problems: power method, inverse power method,
Faddeev – Leverrier Method.

UNIT II ORDINARY DIFFERENTIAL EQUATIONS (9+3)
Runge Kutta Methods for system of IVPs, numerical stability, Adams-Bashforth multistep method,
solution of stiff ODEs, shooting method, BVP: Finite difference method, orthogonal collocation
method, orthogonal collocation with finite element method, Galerkin finite element method.

UNIT III FINITE DIFFERENCE METHOD FOR TIME DEPENDENT PARTIAL DIFFERENTIAL
EQUATION (9+3)
Parabolic equations: explicit and implicit finite difference methods, weighted average approximation - Dirichlet and Neumann conditions – Two dimensional parabolic equations – ADI method; First order
hyperbolic equations – method of characteristics, different explicit and implicit methods; numerical
stability analysis, method of lines – Wave equation: Explicit scheme- Stability of above schemes.

UNIT IV FINITE DIFFERENCE METHODS FOR ELLIPTIC EQUATIONS (9+3)
Laplace and Poisson’s equations in a rectangular region: Five point finite difference schemes,
Leibmann’s iterative methods, Dirichlet and Neumann conditions – Laplace equation in polar
coordinates: finite difference schemes – approximation of derivatives near a curved boundary while
using a square mesh.

UNIT V FINITE ELEMENT METHOD (9+3)
Partial differential equations – Finite element method - orthogonal collocation method, orthogonal
collocation with finite element method, Galerkin finite element method.

TOTAL : 60 PERIODS

OUTCOME:
It helps the students to get familiarized with the numerical methods which are necessary to solve
numerically the problems that arise in engineering.

REFERENCES
1. Saumyen Guha and Rajesh Srivastava, “Numerical methods for Engineering and Science”, Oxford
Higher Education, New Delhi, 2010.
2. Gupta S.K., “Numerical Methods for Engineers”, New Age Publishers, 1995
3. Burden, R.L., and Faires, J.D., “Numerical Analysis – Theory and Applications”, Cengage
Learning, India Edition, New Delhi, 2009.
4. Jain M. K., Iyengar S. R., Kanchi M. B., Jain , “Computational Methods for Partial Differential
Equations”, New Age Publishers,1993.
5. Morton K.W. and Mayers D.F., “Numerical solution of partial differential equations”, Cambridge
University press, Cambridge, 20

Note: L represents Lecture hours, P-Practical hours, T-Tutorial hours, C-Credits. The number given is per week.

Sunday, March 23, 2014

India beat West Indies in ICC T20 2014 World cup

India beat West Indies in ICC T20 2014 World cup

23rd March 2014 - India Vs West Indies- ICC World cup 2014 T20 Match:

Just now, India has finished its second T20 match, well against West Indies. India Won by 7 wickets. On chasing a target of 130, India finished the game with 2 balls and 7 wickets in hand. Again Virat Kohli played a wonderful innings with a support from Rohit Sharma at the other end. Rohit is not out at the crease. Suresh Raina hit the winning shot at his first ball after Yuvi departure at the neck of the game. Congratulations! India.. Go up!

Friday, March 14, 2014

ICC World Cup 2014: LIVE Telecast on TV Channels, Online Streaming

ICC World Cup 2014: LIVE Telecast on TV Channels, Online Streaming
Are you eagerly waiting for the much awaited cricket ICC T20 world cup 2014? Want to know the live telecasting information worldwide and online streaming details? Hereunder is available the complete information on ICC world T20 cup 2014. Read this article to know more.

This year 2014 T20 world cup is going to be kick on from 16th March 2014 to April 6. You can check out the complete match fixtures with time here, click me.  Meantime, Starsports got the live telecast ownership for the entire matches in ICC T20 World Cup 2014. The fans in India can watch the live telecast on Star Sports 1,  Star Sports 2,  Star Sports 3,  Star Sports HD Channels. Those who want to to watch the live action online, visit the official website of star sports, www.starsports.com. Bangaladesh will broadcast the live action on B-TV. The fans in other countries can watch the live telecast on the respective channels which are provided in this link. Know the complete list of Live telecast TV channels for other countries here.

Wednesday, March 12, 2014

2005 Question Paper of Acharya Nagarjuna University (ANU): 3rd, 4th B.Pharm Pharmacognosy-I

2005 Question Paper of Acharya Nagarjuna University (ANU): 3rd, 4th B.Pharm Pharmacognosy-I

ACHARYA NAGARJUNA UNIVERSITY (ANU) >>> PREVIOUS, OLD, LATEST AND MODEL QUESTION PAPERS >> B.Pharm Pharmacognosy-I 2005 QP:

Want to get model, old, previous years question papers of Acharya Nagarjuna University, ANU? In this post, you will find an old question paper of ANU for the subject, B.Pharm Pharmacognosy-I . This was originally asked in the year 2005 by ANU for B.Pharm examination. Read on to get your desired question paper.

Acharya Nagarjuna University

III/IV B.Pharm. DEGREE EXAMINATION,
MARCH/APRIL 2005.

(Examination at the end of 3rd Year of four Year Course)

(Regular)

PAPER V- PHARMACOGNOSY-I

Time: 3 hours                                                                                                Maximum: 80 Marks

Answer any 5 questions

1. a) Define the methods of classification of crude drugs with examples. [10]

b) Provide the sources of natural drugs. [6]

2. a) Explain on the factors that influence cultivation of medicinal plants. [8]

b) Write on the kinds of soils and commonly used fertilizers in the cultivation of medicinal plants. [8]

3. Write the Pharmacognosy of Agar and Honey. [8+8]



4. What is adulteration? define different kinds of detection of adulteration of crude drug of examples. [16]

5. Mention the fibers used in pharmacy. Write the Pharmacology of any one of  them. [16]

6. Write on the bio-genetic pathways of primary and secondary plant metabolites. [16]

7. Elaborate resins? provide the properties of resins. Write the source, cultivation, collection, and uses of Asafoetida. [16]

8. Write short notes on:

a) Polyphyllum

b) Turmeric

c) Castor oil

d) Isabgol

Question Paper of Acharya Nagarjuna University (ANU): A.M.I.E Chemical Engineering Casting and finishing

Question Paper of Acharya Nagarjuna University (ANU): A.M.I.E Chemical Engineering Casting and finishing

Acharya Nagarjuna University (ANU): Previous, Old, Latest and Model Question Papers

Want to get model, old, previous years question papers of Acharya Nagarjuna University, ANU? In this post, you will find an old question paper of ANU for A.M.I.E Chemical Engineering Casting and finishing subject. This was originally asked in the year 2007 by ANU for AMIE examination. Read further to get the same.

Acharya Nagarjuna University
Part - A1805
Instructions:
learn and interpret all the ques. carefully.
Kindly keep your answers to bare minimum of content. Concise and to-the-point answers will be graded high.
Questions:

1. A computer needs an operating system to give all programs with essential services that involve use of machines resources. Linux is also an operating system but it has more features than Windows. Mention how is Linux various from Windows.

2. Make a list of software's installed on your computers in Windows XP or Vista and list the prices of these software's in a tabular fashion list. obtain out the Open Source software's which can be used as a replacement to these software's compute how much money you can save by using Open Source software's in this way.

3. The kernel interacts with the hardware and Shell interacts with the user study the mechanism how kernel interacts with Shell and discuss it in your own words.

4. You have used a command ls in your labs in directory /bin also there is a file /bin/ls are these 2 equivalent if yes then discuss how is it happening.

5. Copy a file with permissions 444.Copy it again and discuss your observations.

6. With improper command usage and examples, clearly discuss the role of permissions when applied on Regular Files and Directory Files.

7. Discuss the role of subsequent operators in Linux highlighting their essence in Linux operating system.
a) Pipeline operator
b) Indirection Operator

Thursday, March 6, 2014

TNPSC Group 4 Results Published: How to check your result

TNPSC Group 4 Results Published: How to check your result

Tamilnadu Public Service Commission (TNPSC): Group IV result 2014 - Exam Held on last year 2013:

Are you eagerly waiting for knowing your Group IV exam written in the last year 2013? Good news that TNPSC has announced today the release of result on its official website. Learn about how to check you result in TNPSC official website.

Today, results of TNPSC group IV has been published in the morning on its official website www.tnpsc.gov.in. But many people are still not able to check their result as the server of TNPSC got overloaded with a lot of traffic. So if you are the one worrying about your result which is still unknown due to server failure, you have the alternate way to check your result. That is trying with Google cache, the snapshot and back up data of Google. Use this link , http://webcache.googleusercontent.com/search?q=cache:http://tnpsc.gov.in/ and browse the latest result there and find your result immediately.


Note: Copy paste the highlighted URL in the address bar of your browser.

Official result link without cache: http://www.tnpsc.gov.in/ResultGet-g42014pwd.html

Hope you will get your result!

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