15SC03S: Applied Science Instrumentation 2nd Sem Syllabus for Diploma DTE Karnataka C15 Scheme

Applied Science detail DTE Kar Diploma syllabus for Electronics Instrumentation And Control Engineering (EI), C15 scheme is extracted from DTE Karnataka official website and presented for diploma students. The course code (15SC03S), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below. The syllabus PDFs can be downloaded from official website.

For all other instrumentation 2nd sem syllabus for diploma c15 scheme dte karnataka you can visit Instrumentation 2nd Sem Syllabus for Diploma C15 Scheme DTE Karnataka Subjects. The detail syllabus for applied science is as follows.

Pre-requisites:

Dynamics, Heat, Sound, Matter, recent trends in Physics, Basic chemistry in Secondary Education.

Course Objectives:

1. Learn concepts of Units, Laws of vectors, parallel forces, moment of force, couple.
2. Learn the fundamentals of properties and behavior of the materials
3. Learn the concepts of heat and thermodynamics.
4. Enhance theoretical and practical principles with applications of sound wave.
5. Understand different types of communication systems.
6. Develop awareness about corrosion, materials, and energy sources in engineering field.

UNIT I: MECHANICS (08 Hrs)

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UNIT-2: PROPERTIES OF SOLIDS AND LIQUIDS: (10 Hrs)

Properties of solids:
Definitions of deforming force, elasticity and plasticity, examples for elasticity and plasticity, definition of stress and its types with examples and its S.I unit, definition of strain and its types with examples, elastic limit, Hooke’s law, stress – strain graph with explanation. Modulie of elasticity and its types, derivation of an expression for Young’s modulus of a material. Definition of Compressibility and factor of safety. Simple problems on stress, strain and Young’s modulus.

Properties of liquids:
Definition of thrust and pressure with S.I units. Derivation of expression for pressure at a point inside the liquid at rest, simple problems.

Energy of liquid in motion:
Kinetic, Potential energies and Pressure energy in moving liquid. Bernoulli’s theorem: statement and expression (No derivation). Cohesive and adhesive forces, angle of contact.

Surface Tension:
Definition of surface tension and its S.I unit, factors affecting surface tension, applications of surface tension, capillarity and its applications.

Viscosity:
Types of flow of liquid, definition of stream line flow and turbulent flow, definition of viscosity, expression for coefficient of viscosity, experimental determination of coefficient of viscosity of water, effect of temperature on viscosity. List of applications of viscosity. Simple problems.

UNIT III: HEAT AND PROPERTIES OF GASES (07Hrs)

Concept of heat & temperature:
Definitions of heat and temperature with S.I units, definition of Specific heat of substance with S I unit, equation for specific heat of a substance (no derivation).

Transmission of heat:
Definitions of conduction, convection and radiation with examples, definition of thermal conductivity, derivation of co-efficient of thermal conductivity(K) and its S.I unit. Applications of conduction, convection and radiation, simple problems on K.

Gas laws:
Statement of Boyle’s law, Charle’s law, Gay-Lussac’s law, derive the relation between them (PV=nRT), definition of Cp and Cv ,relation between them (Mayer’s equation no derivation), simple problems on Boyle’s law and Charle’s law.

Thermodynamics:
Definition of thermodynamics, Laws of thermo dynamics: Zeroth law, Istlaw and IIndlaw (only statement), types of thermodynamics process: isothermal process, adiabatic process.

UNIT IV: WAVE MOTION (10Hrs)

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UNIT V:MODERN PHYSICS (07Hrs)

Electromagnetic waves:
Definition, generation of electromagnetic waves and their properties.

Electromagnetic spectrum:
Definition, classification and its applications.

Lasers:
Principle and listing the types of Laser, properties of Laser, applications.

Nano-Technology:
Definition of Nano-Technology, advantages and dis-advantages of nanoTechnology.

Advance Communication Systems:
Basic elements of communication systems with block diagram, List commonly used terms in electronic communication systems.

Satellite communication:
Introduction, advantages and disadvantages,

Optical fiber:
principle and applications.

UNIT VI: INDUSTRIAL CHEMISTRY (10 Hrs)

Electrolysis:
Definition of electrolyte, types of electrolytes with examples, definition of electrolysis. Arrhenius theory of electrolytic dissociation. Mechanism of Electrolysis. Faradays laws of Electrolysis: state and explain.

Corrosion:
Definition, necessary conditions for corrosion, electrochemical theory of corrosion, list the preventive methods of corrosion.

Batteries:
Basic concept, classification and applications of batteries.

Fuel cells:
Definition, mentioning the types and advantages.

Metallurgy:
Definitions of minerals, ore, flux, slag, alloys. Purpose of making alloys, composition and uses of alloys.

Polymers:
Definition and classification of polymers, methods of polymerization and applications.

Composite materials:
Definition, types, advantages and dis-advantages of composite materials.

Solutions:
Definition of solute, solvent, solutions. Saturated and unsaturated solutions, concentration of solutions: normal, molar and molal solutions, simple problems on concentration of solution.

pH Value:
Hydrogen ion concentration and concept of pH, definition of pH of solution, pH scale, applications of pH in different fields.

Course Delivery:

For complete syllabus and results, class timetable and more pls download iStudy Syllabus App. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.

Course Outcomes:

On successful completion of the course the student will be able to:

1. Determine the dimensions of objects using measuring instruments and analyze vector in mechanics.
2. Create knowledge of properties of matter applicable to engineering.
3. Apply the concepts of thermal properties of matter and gas laws related to engineering.
4. Analyse the different concepts of waves and vibration in the field of engineering.
5. Analyse the recent trends in physics related to engineering.
6. Apply the basic concepts of chemistry in the field of engineering.

Reference Books:

1. Engineering chemistry for Diploma by Ranjan Kumar Mahapatra

(PHI Learning Pvt. Ltd., New Delhi)

2. Basic Physics by Kongbam Chandramani Singh (PHI Learning Pvt. Ltd., New Delhi)
3. Principle of physics by P.V.Naik (PHI Learning Pvt. Ltd. New Delhi)

Website:

1. www.rsc.org/Education/Teachers/resources/Inspirational/../4.3.1.pdf
2. www.nanogloss.com/nanotechnology/advantages and disadvantages
3. www.freebookcentre.net/physics/ introductory-physics-books.html

e-books:

1. Introduction to physics – II, Robert P Johnson.
2. Lecture notes physics university of Rochester.
3. Text book of Physics poynting J.H Thomson sir J.J.

Model Question Paper:

Note:

1. Answer any 10 questions from section A, each carry 02marks.

ii. Answer any 10 questions from section B, each carry 05 marks.

iii. Answer any 05 questions from section C, each carry 06 marks.

PART-A

1. Define Unit.
2. Differentiate scalars and vectors.
3. Define Resultant of forces.
4. Define moment of couple.
5. Define plasticity.
6. Define compressibility.
7. Define viscosity of liquid.
8. Define specific heat of substance.
9. Define thermodynamics.
10. Define time period.
11. Define beats.
12. Define Electro-magnetic waves.
13. Define Nano-Technology.
14. Define electrolyte.
15. Define composite materials.

PART-B

1. Draw a neat diagram of Vernier calipers and label its parts.
2. Write the condition for equilibrium of coplanar parallel forces with an example.
3. Explain stress-strain graph.
4. Define K.E of liquid in motion. State Bernoulli’s theorem.
5. Define capillarity? Write any three application of surface tension.
6. State 1st law of thermodynamics. Explain isothermal & adiabatic process.
7. State the three gas laws.( Boyle’s law, Charle’s law & Gay-Lussac law)
8. Explain mechanical &non- mechanical waves with examples.
9. Distinguish between longitudinal & transverse waves.
10. Write any three advantages and two disadvantages of F.M.
11. Write the principle of laser. Lists its properties.
12. Explain the mechanism of electrolysis of HCL.
13. Write the basic concepts of batteries. Mention any three applications of batteries.
14. Distinguish between minerals and ore. Write any three applications of pH.
15. Define composite materials. Write the advantages of composite materials.

PART-C

1. Derive an expression for magnitude and direction of resultant of two forces acting at a Point.
2. Describe an experiment to determine coefficient of viscosity of water by Poiseuille’s method.
3. 1.25cc volume of a gas at 150C &755mm of mercury pressure. Calculate volume at NTP.
4. Derive an expression for fundamental frequency of transverse vibrations of stretched string.
5. Describe an experiment to find the unknown frequency of the given tuning fork using sonometer by comparison method.
6. Calculate the velocity of sound in air at 250C & 75cm of mercury pressure, if the density of air at 00C & 76cm of mercury pressure is 1.29kgm-3. (given y=1.41 for air).
7. Write the basic elements of communication system with block diagram.
8. Explain any two methods of polymerization.

For detail syllabus of all other subjects of BE Instrumentation, C15 scheme do visit Instrumentation 2nd Sem syllabus for C15 scheme.

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