1003: Engineering Physics I KL Diploma Syllabus for Tool & Die 1st Sem 2015 Revision SITTTR

Engineering Physics I detailed syllabus for Tool & Die Engineering (Tool & Die) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the Tool & Die students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Tool & Die Engineering 1st Sem scheme and its subjects, do visit Tool & Die 1st Sem 2015 revision scheme. The detailed syllabus of engineering physics i is as follows.

Course Outcomes:

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SPECIFIC OUTCOME

MODULE – I FORCE AND MOTION

1. Understand the concept of units and measurements.
   1. Define Unit of a Physical quantity.
   2. Explain the principle of measurement.
   3. Identify fundamental and derived units.
   4. Apply the dynamics of particles in practical situations.
   5. Identify the vector and scalar quantities.
   6. Derive the expression Sn = u + a (n-%).
   7. Solve problems related to gravity with equations of motion.
   8. State Newton’s laws of motion.
   9. Define the terms force, Inertia, Momentum and Impulse.
   10. Derive the relation F = ma.
   11. State law of conservation of momentum and prove it in the case of two bodies making a collision .
   12. Explain the principle behind the recoil of gun.
   13. Solve problems related to laws of motion.

MODULE – II VECTORS AND STATICS

1. Understand the principles of statics and its applications.
   1. Add vectors using triangle method.
   2. Define Resultant and Equilibrant of vectors.
   3. State Parallelogram law of forces.
   4. Derive expression for resultant using Parallelogram law.
   5. State the law of triangle of forces.
   6. State Lami’s theorem.
   7. Explain moment of a force.
   8. State the conditions of equilibrium of a rigid body acted upon by a large number of coplanar parallel forces.
   9. Derive expression for work done by a couple.

MODULE – III PROPERTIES OF MATTER

1. Comprehend the concept of elasticity.
   1. Define stress, strain, and elastic limit.
   2. State Hooke’s law.
   3. Derive expression for Young’s modulus, rigidity modulus, and bulk modulus.
   4. Understand the term elastic fatigue.
   5. Solve the problems related to modulus of elasticity.
   6. Understand the principle of fluid flow.
   7. Distinguish between Streamline and Turbulent flow.
   8. Explain Pressure energy, Kinetic energy and Potential energy of a liquid.
   9. Mention equation of continuity.
   10. State Bernouille’s theorem.
   11. Explain the working of airfoil and atomizer.
   12. Apply the principle of viscosity in solving problems.
   13. Define coefficient of viscosity.
   14. Give the Poiseusille’s formula.
   15. Explain terminal velocity.
   16. Mention Stoke’s formula.
   17. Explain the effect of temperature on viscosity.
   18. Solve problems using Poiseuille’s formula.

MODULE – IV PERIODIC

1. Comprehend the concept of wave motion.
   1. Define Simple Harmonic motion.
   2. Derive equation for simple harmonic motion.
   3. Explain period, frequency and amplitude.
   4. Distinguish between transverse and longitudinal waves.
   5. Define wavelength.
   6. Derive the relation v = fX
   7. Explain resonance.
   8. Distinguish between closed pipes and open pipes.
   9. Calculate the velocity of sound using resonance column experiment.
   10. Explain ultrasonic waves.
   11. Mention applications of ultrasonic waves.

MODULE – I

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MODULE – II

VECTORS AND STATICS (13Hrs) Vectors and scalars- Triangle method of vector addition- Concurrent forces- Resultant and Equilibrant- parallelogram law -Derivation of resultant in magnitude and direction-Law of triangle of forces- Lami’s theorem- Resolution of forces- Parallel forces- like and unlike parallel forces- moment of a force- conditions of equilibrium under the action of a number of coplanar parallel forces- couple-moment of a couple- work done by a couple- numerical problems.

MODULE – III

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MODULE – IV

PERIODIC MOTION AND WAVES (9Hrs) Simple harmonic motion – definition – simple harmonic motion as projection of a uniform circular motion along the diameter of a circle – equation for simple harmonic motion -period, frequency, amplitude and phase -Examples of simple Harmonic Oscillators -problems. Waves – longitudinal and transverse – relation between velocity, frequency and wavelength – free vibration, forced vibration and resonance – nodes and antinodes -vibration of air column in a tube – closed pipes – open pipes – end correction – resonance column experiment – variation of velocity with temperature – ultrasonic waves -production – applications – problems.

Reference Books:

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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For detailed syllabus of all other subjects of Tool & Die Engineering, 2015 revision curriculum do visit Tool & Die 1st Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.