Welcome to IRDT Uttarakhand E-Syllabus Web Portal

29 AUTOMOBILE ENGGINEERING
Duration : 03 Year
Eligibility : 10th with Science & Mathematics
Intake : 25/40/60(As approved by AICTE/State Govt.)
Pattern of the Examination : Semester System
Assessment Type : The assessment will we carry out through credit point system/Learning Based Out comes
Theory & Practical Ratio : 50: 50
Industrial Training: Included after IInd Semester
Ecology & Environment : As pe Government Directions a subject named Environmental Science & Energy Management has been included.
Entrepreneurship Development: A subject on Entrepreneurship Development has been incorporated after IInd Semester.
General Proficiency : A provision of 6 periods per week has been made. It Included of various cocurricular activities like games, hobby clubs, seminars, declamation contests, extension lectures, NCC, NSS, cultural activities and discipline etc.

Syllabus


Paper Code :
992003
Paper Name :
APPLIED PHYSICS-II
1.1 Thomson’s Model of atom, Rutherford’s Model, Bohr’s Model
1.2 Energy - levels of atom - concept of energy levels, ionizations and excitation
potentials, Energy Band
1.3 Spectrum- Emission Spectrum & Absorption Spectrum Line Spectrum and Band
Spectrum
1.4 Optics: Review of basic optics laws: reflection and refraction
1.5 Refraction and refractive index, total internal Reflection and their applications
2.1 Coulomb’s law, unit of charge, electric potential and electric potential difference
2.2 Electric field, electric field intensity, electric lines of force, electric flux and Gauss’s
Law
2.3 Applications of Gauss law in finding electric field of point charge, straight charged
conductor, plane charged sheet and between two plane parallel charged sheets
2.4 Capacitance: types of capacitors, capacitance of parallel plate capacitor, series and
parallel combination of capacitors, Dielectric and its effect on capacitance, and
dielectric break down
2.5 Application of electrostatics in electrostatic precipitator
3.1 Concept of electricity, current and its unit, direct and alternating current, voltage,
resistance and resistivity, potential difference and e.m.f.
3.2 Ohm’s law and its applications, concept of resistance, conductance, specific
resistance, effect of temperature on resistance, temperature co-efficient of
resistance, series and parallel combination of resistors. Introduction to super
conductivity.
3.3 Kirchhoff’s laws, Wheatstone bridge principle and its applications (Slide Wire
Bridge)
3.4 Heating effect of current and concept of electric power, energy and their units,
related numerical problems.
4.1 Magnetic field and its unit, magnetic intensity, magnetic lines of force, magnetic
flux and their units, Right hand thumb rule, magnetic lines of force due to straight
conductor, circular coil and solenoid
4.2 Force on a charge moving in a uniform magnetic field (Lorentz force). Force on a
current carrying straight conductor. Torque on a current carrying rectangular coil.
Force between two infinite parallel current carrying conductor.
4.3 Moving coil galvanometer; its principle, construction and working, conversion of a
galvanometer into ammeter and voltmeter.
4.4 Electromagnetic induction; Faradays Laws, Lenz’s Law. Self and Mutual
Induction,. Eddy current
5.1 Energy bands, intrinsic and extrinsic semiconductors, p-n junction diode and its
characteristics
5.2 Diode as rectifier – half wave and full wave rectifier. Transistor: pnp and npn
(concept only). Types of Diodes
6.1 Electromagnetic spectrum, photo electric effect and work function, X raysproperties,
Applications of X- rays in medicine and industries.
6.2 Lasers: spontaneous and stimulated emission; lasers and its characteristics,
population inversion, types of lasers and its engineering and medical applications.
6.3 Fiber optics: introduction to optical fiber materials, types, light propagation and
applications in Communication and Medical.
1. Conversion of Galvanometer into an Ammeter of given range.
2. Conversion of Galvanometer into Voltmeter of given range.
3. To verify ohm’s laws by drawing a graph between voltage and current.
4. To verify laws of resistances in series and in parallel combinations.
5. To draw characteristics of a pn junction diode and find resistance of diode
6. Verification of Kirchhoff’s Laws
7. Determination of resistivity by Meter bridge
8. To assemble the components of a given electrical circuit.
9. To identify a Diode, LED, transistor, Resistor, Capacitor from mixed collection of
such items and draw their notation.
10. Use of Multi meter to :
(i) To measure value of given resistance.
(ii) Distinguish between n-p-n and p-n-p transistors.
(iii) See the unidirectional flow of a current in case of a Diode and LED


Website Developed By Softmaart