Syllabus
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Course Code: PHY 105 Course Name: Physics Laboratory-I |
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| MODULE NO / UNIT | COURSE SYLLABUS CONTENTS OF MODULE | NOTES |
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| 1 | Section A (Electronics) Course Outcomes (COs) After successful completion of the course on Physics Laboratory-I (electronics), a student will be able to: PHY105.1 Draw and understand the frequency response of different Filter circuits and a RC-coupled amplifier in its three configurations. PHY105.2 Design and measure important parameters of rectifier, filter, voltage regulator and pn-junction circuits. PHY105.3 Design and draw load characteristics of a push-pull amplifier and generate and determine the frequency of saw-tooth waves using UJT. PHY105.4 Design and verify truth tables of the basic logic gates. PHY105.5 Design and understand the operations of astable multivibrator, clipping and clamping circuits. PHY105.6 Design and understand the operations of differentiating, integrating, modulation and demodulation circuits. PHY105.7 Measure the sensitivities of X and Y plates of a CRO and determine frequency and phase-difference using CRO. PHY105.8 Draw the characteristics of various opto-electronic devices and determine high resistance by leakage and k/e using a transistor. List of experiments2 E1 To study the frequency response of low-pass, high-pass and band-pass filters. E2 To study the rectifier circuits and to measure the ripple factors of C, L and π-section filters. Also study the stabilization characteristics of a voltage regulator consisting of IC-741. E3 To study the load characteristics of a class-B push-pull amplifier. E4 To generate saw-tooth waves using UJT and find its frequency. E5 To draw frequency response characteristics of a RC-coupled single stage BJT amplifier in all the three configurations. E6 To design circuits for OR, AND, NOT, NAND and NOR logic gates and verify their truth tables. E7 To measure (a) phase difference, (b) deflection sensitivities and (c) frequency of an unknown ac signal using CRO. E8 To study the astable multivibrator. E9 To study the clipping and clamping circuits. E10 To study the differentiating and integrating circuits. E11 To determine various parameters of a pn-junction diode. E12 To study the modulation and demodulation circuits. E13 To draw characteristics of opto-electronic devices. E14 To determine high resistance by leakage and k/e using a transistor. |
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| 2 | Section B (General Physics) Course Outcomes (COs) After successful completion of the course on Physics Laboratory-I (general physics), a student will be able to: PHY105.1 Measure the width of a narrow slit using diffraction phenomenon and ionization potential of mercury. PHY105.2 Calculate the Planck’s constant using a suitable light source and half life of Indium. PHY105.3 Measure the mass absorption coefficient of β-rays in Aluminum and the band gap of a semiconductor. PHY105.4 Set Michelson and Fabry-Parot interferometers for various practical measurements. PHY105.5 Determine the strength of α-source and verify nuclear statistics using SSNTD. PHY105.6 Verify the energy quantization using the Frank-Hertz Experiment. PHY105.7 Demonstrate different harmonics present in complex signals using Fourier Analysis. PHY105.8 Understand the underlying dynamics mimicked by the Feigenbaum and the Chua’ circuits. List of experiments2 G1 To measure the width of a narrow slit using the diffraction phenomenon. G2 To determine the ionization potential of mercury. G3 To determine the value of Planck’s constant using photocell/LED. G4 To study absorption of β-rays in Aluminum. G5 Michelson interferometer experiment. G6 Fabry-Parot interferometer experiment. G7 To determine the half-life of Indium. G8 To determine the strength of an α-source using SSNTD. G9 To study nuclear statistics using SSNTD. G10 Demonstration of energy quantization using the Frank-Hertz Experiment. G11 Fourier analysis of complex signals. G12 To determine band-gap of a semiconductor material. G13 To study nonlinear dynamics using Feigenbaum circuit. G14 To study nonlinear dynamics using Chua’ circuit. |
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