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Program : Diploma in Engineering and Technology, Course Code : 1003, , Course Title: Applied Physics-I, , Semester : 1, , Credits: 3, , Course Category: Basic Science, Periods per week: 3 (L:3 T:0 P:0), , Periods per semester: 45, , Course Objectives:, , , To provide students with a broad understanding of physical principles of the, universe to help them develop critical thinking and quantitative reasoning skills, ,  To help the diploma engineers in applying the basic concepts of physics to solve, broad-based engineering problems, Course Prerequisites:, Topic, , Program/Course Name, , Basic knowledge in Physics, , Secondary School, , Course Outcomes, On completion of the course, the student will be able to:, Duration, (Hours), , Description, , COn, , Cognitive, Level, , CO1, , Apply laws of mechanics in rocket propulsion, and recoil of gun., , 9, , Applying, , CO2, , Apply concepts of circular motion and, rotational motion, , 9, , Applying, , CO3, , Make use the concepts of energy, power, work,, temperature and friction to solve problems, , 13, , Applying, , CO4, , Use the theorems of fluid dynamics in atomiser, and airfoil, , 12, , Applying, , Series Test, , 2, , 1

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CO-PO Mapping, Course, Outcomes, , PO1, , CO1, , 3, , CO2, , 3, , CO3, , 3, , CO4, , 3, , PO2, , PO3, , PO4, , PO5, , PO6, , PO7, , 3-Strongly mapped, 2-Moderately mapped, 1- Weakly mapped, Course Outline, Module, Outcomes, , Duration, (Hours), , Description, , Cognitive, Level, , CO1, , Apply laws of mechanics in rocket propulsion and recoil of gun, , M1.01, , Discuss various physical quantities, and their units., , 1, , Understanding, , M1.02, , Identify types of errors in, measurements and apply it to calculate, errors in laboratory experiments., , 2, , Applying, , M1.03, , M1.04, , Differentiate a physical quantity into, scalar and vector and discuss various, methods of vector addition., Apply Newton’s laws of motion and, law of conservation of linear, momentum to describe rocket, propulsion and recoil of gun., , 2, , 4, , Understanding, , Applying, , Module 1:, Physical quantities - Fundamental and derived, Units and systems of units (CGS, MKS, and SI units),, Measurements - Errors in measurements- systematic and random errors (qualitative idea, only), absolute error, relative error, percentage error, numerical problems, Scalar and Vector quantities - Representation of vector, Collinear vectors, Coplanar, vectors, equal vectors, unit vectors. Addition and Subtraction of Vectors, Triangle and, Parallelogram law of addition, Resolution of a Vector., Equations of motion (elementary idea), Newton’s laws of motion (no derivation), Force,, Momentum, Statement and derivation of conservation of linear momentum, its, applications - recoil of gun and rocket propulsion, Impulse and its examples (numerical, problems related to force and momentum)., , 2

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CO2, , Apply concepts of circular motion and rotational motion, , M2.01, , Describe basic concepts of circular, motion and its application in the case of, banking of roads and railway tracks., , 4, , M2.02, , Explain rotational motion and theorems, of moment of inertia., , 3, , M2.03, , Discuss the conservation of angular, momentum and torque in rotational, motion., , 2, , Series Test – I, , Applying, Understanding, , Understanding, , 1, , Module 2:, Circular motion, angular displacement, angular velocity, angular acceleration, Relation, between linear and angular velocity, linear acceleration and angular acceleration., Centripetal acceleration and Centripetal force (qualitative idea only). Applicationbanking of roads and railway tracks (numerical problems related to circular motion), Moment of inertia and its physical significance, radius of gyration for rigid body,, Theorems of parallel and perpendicular axes, Moment of inertia of rod, disc, ring and, sphere (hollow and solid)- (Formulae only), Definition of angular momentum and torque, Conservation of angular momentum, (quantitative)., CO3, , Make use the concepts of energy, power, work, temperature and friction, to solve problems, , M3.01, , Explain the concept of work and friction., , 3, , Understanding, , Describe conservation of energy and, transformation of energy into various, forms, , 2, , Understanding, , Discuss the concept of power and apply, it to solve engineering problems., , 4, , Applying, , Discuss the concepts of heat and, measurement of temperature using, mercury thermometer and pyrometer, , 4, , Applying, , M3.02, , M3.03, , M3.04, , 3

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Module 3:, Definition of work and unit, Work done in moving an object on horizontal plane,, Friction: definition, static friction, kinetic friction, laws of friction, methods of reducing, friction and examples., Energy and its units, kinetic energy, potential energy with examples. conservation of, energy for freely falling bodies, Various forms of energy, transformation of energy, (mention examples), Power- definition, power and work relationship, calculation of, power (numerical problems related to energy and power)., Concept of heat and temperature, scales of temperature and their relationship (numerical, problems relating various temperature scales), modes of heat transfer (conduction,, convection and radiation with examples), specific heat of solids, measurement of, temperature - Mercury thermometer and Pyrometer., CO4, , Use the theorems of fluid dynamics in atomiser and airfoil, , M4.01, , Explain the basic concepts of elasticity and, apply it to calculate various elastic modulii, of materials, , 4, , Applying, , Discuss properties of fluids such as surface, tension and pressure., , 2, , Understanding, , M4.03, , Define the term coefficient of viscosity and, explain Stoke’s law, , 2, , Understanding, , M4.04, , Apply theorems of fluid dynamics to, explain the working of atomiser and air, foil, , 4, , Applying, , M4.02, , Series Test – II, , 1, , Module 4:, Elasticity - definition of stress and strain, Hooke’s law, modulii of elasticity (numerical, problems)., Pressure - definition and units, atmospheric pressure, gauge pressure and absolute, pressure., Surface tension - concept, units, cohesive and adhesive forces, angle of contact, Ascent, Formula (No derivation), mention two applications of surface tension, effect of, temperature and impurity on surface tension., Viscosity and coefficient of viscosity - Terminal velocity, Stoke’s law. Hydrodynamics:, Fluid motion, stream line and turbulent flow, Reynold’s number (qualitative idea only),, Equation of continuity (numerical problems of equation of continuity), Bernoulli’s, Theorem and its applications (air foil, atomizer)., , 4

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Text /Reference:, T/R, , Book Title / Author, , T1, , Text Book of Physics for Class XI& XII (Part-I, Part-II); N.C.E.R.T., Delhi, , R2, , Applied Physics, Vol. I and Vol. II, TTTI Publications, Tata McGraw Hill, Delhi, , R3, , Concepts of Physics by HC Verma, Vol. I & II, Bharti Bhawan Ltd. New Delhi, , R4, , Fundamentals of Physics, Halliday/Resnick/Walker, Wiley India Pvt. Ltd, , R5, , Modern approach to Applied Physics-I and II, AS Vasudeva, Modern, Publishers., , 5