Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:Solveordinarydifferentialequationsofsecondorderandsomevectorproblemsthatarecommon in thephysical sciences.
CO2:DemonstrateanintermediateknowledgeofNewton’sLawsandtheequationsofmotionof somesystems.
CO3: Understandingwithcentralforce andidea aboutvarioussatellitesysteminEarthgravitationalfield.
CO4:Applytheconcepts ofelasticityto realworldproblems
CO5:Explainthefundamentalprinciplesof thespecialtheoryofrelativity
CO6:Understand rigorously alltheorybyall practical.
COURSE:ELECTRICITYANDMAGNETISM
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:Definethebasictermssuchaselectricfield,electricpotential,magneticintensity,magneticinduction, magneticsusceptibility andelectricandmagneticflux.
CO2:SolvenumericalproblemsusingCoulombsLaw,Gauss’slaw,Biot-Savart’slaw,Amperecircuital law andFaraday’s law.
CO3:Derivetherelationbetweenthreemagneticvectorsandcomparedifferenttypesofmagneticmaterial.
CO4:Explain theconceptof varioustypeofcapacitor.
CO5:UnderstandtheMaxwell’sequationsandelectromagnetic waves.
CO6:Understand rigorously alltheorybyall practical.
COURSE:THERMALPHYSICSANDSTATISTICALMECHANICS
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:Definelaws ofthermodynamics,entropy,thermodynamicprocesses etc.
CO2:DescribeandderiveexpressionofHeatengine&Carnotengine,entropy,latentheatequationand various thermodynamic potentials.
CO3:Explainthemaxwell’sdistributionlawofgasparticles,conceptofequipartitionofenergyand transport phenomenaof gases.
CO4:DerivethePlank’slaw,Wine’sdistributionlaw,Rayleigh-JeansLaw,StefanBoltzmannLawand Wien’sdisplacement lawforBlack body radiation.
CO5:Understandtheconceptofphasespace,macroµstateandalsoabletoexplain&compareall threetypeof statistics.
CO6:Understand rigorously alltheorybyall practical.
COURSE:RENEWABLEENERGYANDENERGYHARVESTING
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:UnderstandtheFossilfuels andaboutthealternatesources of energy.
CO2:Explainsolarenergy, itsusesanddescribesolarcellandphotovoltaiccell.
CO3:Explainandapplicationofvarioustyperenewableenergysourcesaswindenergy,solarenergy,ocean energy, geothermalenergy andhydro energy.
CO4:Understandthepiezoelectricandelectromagneticenergy harvesting.
CO6:Understand rigorously alltheorybyall demonstration.
COURSE:WAVESANDOPTICS
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1: Define periodic and oscillatory motion, setup and solve differential equations ofmotionforsimpleharmonic,damped,andforcedoscillators,setandsolvedifferential equation for wave motion for longitudinal and transverse waves and alsounderstandingthe Sabine’s formulaofacoustics ofbuildings.
CO2: Describe the superpositionof twocollinearandperpendicular harmonic oscillatorwith graphical and analytical method and also understand the concept of Lissajousfigureand its application.
CO3: Define the surface tension and its applicationto various type of liquid or air dropsalso about the Poiseuille’s formula, define the coefficient of viscosity and types ofpump system which creating low pressure and some type of gauge for measuring lowpressure.
CO4: Explain the wave front of light and its propagation, also can describe the interferenceof light by various measurements like Young’s Double Slit experiment, Newton’sRingexperiment, etc.
CO5:Determinethewavelength,refractiveindex,etc.byMichelson’sInterferometerexperiment.
CO6:UnderstandabouttheFraunhoferandFresneldiffractionoflightwithsomeexperimentandalsoexplain theplane, circularand ellipticalpolarization oflight.
CO7:Understand rigorously alltheorybyall practical.
COURSE:WEATHERFORECASTING
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:Understandthebasicideaabout atmosphereandweather.
CO2: Determine how to produce wind also measuring its speed and direction and alsounderstandabout thehumidityclouds and rainfall.
CO3:Describetheglobalwindsystem,thunderstormandtropicalcyclonesalsodefinetheclimate,its changeduetoglobalwarming andpollution.
CO4:Forecastofweatherbyvariousanalysis.
CO5:Understand rigorously alltheorybyall demonstration.
COURSE:ELEMENTSOFMODERNPHYSICS
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1: Explain the Plank’s constant, photo electric effect and Compton scattering and alsodescribethewaveparticleduality byDavisson-Germerand doubleslit experiment.
CO2: Describe the Rutherford and Bohr’s atomic model and from it define the energyspectra of hydrogen atom and also describe the uncertainty principle by thoughtexperiment.
CO3: Define the Schrodinger wave equation for non-relativistic particles its application onone dimensional box and understand about the momentum operator, energy operator,eigenvalue,eigen function andalso about thenormalizationofwavefunction.
CO4: Describe the quantum mechanical scattering and tunnelling across various potentialbarrier.
CO5: Understanding about the atomic nucleus its relation with atomic weight also describesthenuclearforcesand bindingenergy fromsemi-empirical mass formula.
CO6: Define the various type of radioactive decay, law of decay, fission and fusion, andaboutnuclearreactor.
CO7:Understand rigorously alltheorybyall practical.
COURSE:NUCLEAR&PARTICLEPHYSICS
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:Describethegeneralpropertiesofnuclei
CO2: Understanding about the various existing nuclear models like liquid drop model,Fermigas modeland shell model.
CO3: Define the three type of radioactive decay i.e., alpha, beta and gamma decay and alsodescribethe nuclear reaction.
CO4: Explain the interaction of nuclear radiation with matter and also describe the varioustype of detector for nuclear radiation i.e., gas detectors, scintillation detectors andsemiconductordetectors.
CO5: know the particle accelerator facility available in India and also describe the basicparticlephysics.
COURSE:COMPUTATIONALPHYSICS
After successfully completing this course, the student will be able to:
CO1: Use of computational methods to solve physical problems
CO2:Useofvariouscomputerlanguages like FORTAN,Linux.
CO3: Control of various statements and understand of introductory level of LaTeX and itsuses.
CO4:Understand rigorously alltheorybyall hands-onexercise.
COURSE:QUANTUMMECHANICS
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1: Describe time dependent and independent Schrodinger equation for non-relativisticparticlesanditsapplicationandalsounderstandaboutthemomentumoperator,energy operator, eigen value, eigen function and also about the normalization ofwavefunction.
CO2: Define the bound state in an arbitrary potential like square well potential and simpleharmonicoscillator.
CO3: Apply quantum theory to hydrogen like atoms and using the Frobenius method andalsounderstand aboutorbital angularmomentumquantum numbers.
CO4: Understandabout electron angular momentum,spin, spin angular momentumandspin magnetic moment and also understand about the Zeeman effect, Gyromagneticratioand Bohr Magneton.
CO5:DescribethePauli’sExclusionprinciple,totalangularmomentumandvectormodelofSpin orbit coupling.
CO6:Understand rigorously alltheorybyall practical.
COURSE:DIGITALANDANALOGCIRCUITSANDINSTRUMENTATION
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:Using thelogiccircuitandBooleanalgebra andalsounderstand theBinarynumbers.
CO2:Understandingthevarioustypeofsemiconductordiodesandbipolarjunctiontransistors.
CO3:Understanding abouttheOperationalamplifiersand Sinusoidaloscillators.
CO4:Understandaboutvariousmeasuringinstruments like CRO,PowerSupply,Rectifiers,capacitorfilter, Zener Diodeand alsoabout TimerIC.
CO5:Understand rigorously alltheorybyall practical.
COURSE:ELECTRICALCIRCUITS ANDNETWORKSKILLS
Aftersuccessfully completingthis course,thestudentwill beable to:
CO1:Understand thebasic principles ofelectricityandelectrical circuits.
CO2:Defineelectricaldrawingandsymbolsandalsounderstandingaboutelectricmotors,generatorsand transformers.
CO3:Describeaboutvarioussolid-statedeviceselectricalprotectionandelectricalwirings.
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