Outcomes After completion of the course

the student should be able to

CO 1  : Understand variable mass system, application to motion of Rocket and the principle and working of Gyroscope and its applications.

CO 2 : Comprehend the general characteristic of Central forces and Keplar laws  to describe the motion of planets  and satellite in circular orbit, GPS.

CO 3 :Understand postulates  of special theory of Relativity and its consequences of length contraction, Time dilation and Einstein Mass Energy Relation.

CO 4 :  Understand the motion of Simple Harmonic Oscillator, Damped Oscillator and Forced Oscillator and phenomenon of Quality

CO 5: Understand the  knowledge of Ultrasonic’s waves their production ,detection and applications of Ultrasonic’s.

PRACTICAL

·      Perform experiments on Properties of matter such as the determination of moduli ofelasticityviz.,Young’smodulus,Rigiditymodulusofcertainmaterials

·      Know how to determine the acceleration due to gravity at a place using Compound pendulum and Simple pendulum.

·      Verify the laws of transverse vibrations in a stretched string using sonometer and comment on the relation between frequency, length and tension of a stretched

SEMESTER II

Wave optics

CO 1 :Understand the phenomenon  of Interference of light and its formation  in Lioyd’ smirror Newtons Rings and Michelson Interferometer.

CO  2 :Distinguish between Fresnal and Fraunh offer Diffraction and observe the diffraction  patterns  in case of  single slit and Diffraction Grating. Describe  the construction and working of Zone plate and comparison with convex lens

CO 3  :Explain the various methods of production of circular and elliptical polarized  light and concept of optical activity.

CO 4 : Comprehended the basic principal of  Laser, the working of He –Ne Laser  and Ruby Lasers and their applications in different fields.

Understanding the basic properties  of Fibre optic communication, principle of Holography and their Applications.

PRACTICAL

·Know the techniques involved in measuring the resolving power of telescope and dispersive power of the material of the prism, dispersive power of the material of the prism.

·Verify the laws of transverse vibrations in a stretched string using sono meter and comment on the relation between frequency, length and tension of a stretched

SEMESTER III

CO 1 :  Under stand the basic aspects of kinetic theory of gases, Maxwell- Boltzman distribution law, mean free path the transport phenomenon in ideal gases

.CO 2 :  Understand the working of Carnot’s ideal heat engine, Carnot cycle and its efficiency

CO 3 :  understanding of concept  of Thermodynamic potentials, the formulation of Maxwell’s equations and its applications

CO 4 :   Understand methods to produce low temperature and also understand the practical applications of substances

CO 5:   Examine the nature of black body radiations and the basic theories. 

CO 1:Understand the Gauss law and its application to obtain electric field in different cases andformulatetherelationshipbetweenelectricdisplacementvector,electric polarization,Susceptibility, Permittivity and Dielectric constant.

CO 2:Understand Biot and Savart’s law and Ampere’s circuital law to describe and explain the generation of magnetic fields by electrical currents.

CO 3: Develop an understanding on the unification of electric and magnetic fields and Maxwell’s equations governing electromagnetic waves.

CO 4 :Describe the operation of p-n junction diodes, zener diodes, light emitting diodes and transistors

CO 5 :Understand the operation of basic logic gates and universal gates and their truth tables

PRACTICAL

·      Adder and full adder and verify their truth tables. Further, the student Observe the resonance condition in LCR series and parallel circuit

·      Learnhow a sonometer can be used to determine the frequency of AC-supply.

·      Understand the operation of PN junction diode, Zener diode and a transistor and their V-Icharacteristics.

·      Construct the basic logic gates, half will understand how NAND and NOR gates can be used as universal building blocks

CO 1 : Understanding Stern Gerlach experiment and Raman Effect.

CO 2 : Develop critical understanding of concept of Matter waves and Uncertainty principle.

CO 3 :Get familiarized with the principles of quantum mechanics and the formulation of Schroding erwave equation and its applications.

CO 4 :Examine the basic properties of nucle is alient features of Nuclear models and different nuclear radiation detectors.

CO 5 :Get familiarized with the nano materials, their unique properties and applications.

Increasetheawarenessandappreciationofsuperconductorsandtheirpracticalapplications

PRACTICAL

· Measure charge of an electron and e / m value of an electron by Thomson method.

· UnderstandhowthePlanck’sconstantcanbedeterminedusingPhotocellandLEDs.

· Study the absorption of α-rays and β-rays, Range of β-particles and the characteristics of GM counter

· Determine the Energy gap of a semi conductor using thermostat and junction diode.

SEMESTER V

LOW TEMPERATURE PHYSICS & REFRIGERATION

CO1 : Identify various methods and techniques used to produce low temperatures in the Laboratory.

CO 2 : Acquire a critical knowledge on refrigeration and air conditioning.

CO 3 : Demonstrate skills of Refrigerators through hands on experience and learns about refrigeration components and their accessories.

CO4 : Understand the classification, properties of refrigerants and their effects on environment.

CO 5 : Comprehend the applications of Low Temperature Physics and refrigeration.

PRACTICAL

·      List out, identify and handle equipment used in refrigeration and low temperature lab.

·      Learn the procedures of preparation of Freezing Mixtures.

·      Demonstrate skills on developing various Freezing mixtures and materials and their applications in agriculture, medicine and day to day life.

·      Acquire skills in observing and measuring various methodologies of very low temperatures

·      Perform some techniques related to Refrigeration and Freezing in daily life.

CO 1 : Understand Sun structure, forms of energy coming from the Sun and its measurement.

CO 2 :Acquire a critical knowledge on the working of thermal and photovoltaic collectors.

CO 3 :Demonstrate skills related to callus culture through hands on experience

CO 4 : Understand testing procedures and fault analysis of thermal collectors and PV modules.

CO 5 : Comprehend applications of thermal collectors and PV modules.

PRACTICAL

·      List out and identify various components of solar thermal collectors and systems, solar photovoltaic modules and systems.

·      Learn the procedures for measurement of direct, global and diffuse solar radiation, I – V characteristics and efficiency analysis of solar cells and modules.

·      Demonstrate skills acquired in evaluating the performance of solar cell / module in connecting them appropriately to get required power output. 4. Acquire skills in identification and elimination of the damaged panels without affecting the output power in a module / array.

·      Perform procedures and techniques related to general maintenance of solar thermal and photovoltaic modules.