Coming soon
Practical
This course will enable the students to –
· To engage students in significant experiences with experimental processes.
· To develop basic skills and tools of experimental physics and data analysis
· To understand the role of direct observation in Physics and to distinguish between inference based on theory and outcome of experiments.
Course outcomes (COs):
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Course |
Learning outcomes (at course level) |
Learning and teaching strategies |
Assessment Strategies |
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PAPER CODE |
Paper Title |
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PHY 325
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Practical (Practical)
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The students will be able to: CO96: apply the various procedures and techniques for the experiments.CO97: use the different measuring devices and meters to record the data with precision.CO98: apply the mathematical concepts/equations to obtain quantitative results.CO99: develop basiccommunication skills through working in groups in performing the laboratory experiments and by interpreting the results. |
Approach in teaching: Demonstration, Group activity, Discussion ,Conduction of Experiments, Asking viva voce questions.
Learning activities for the students: Performing Experiments, Analysis and interpretation of observations, Record preparation. |
Class test, Semester end examinations, Viva-voce, Practical record File. |
CONTENTS
The students will be required to perform 8 experiments in each semester from the following list of experiments
- To study characteristics of a GM counter and to verify inverse law.
- To determine linear and mass attenuation coefficient (u) for γ rays for a given source.(Al,Cu,Pb)
- Study the characteristics of a given Klystron and calculate the mode number, E.T.S. and transit time.
- Study the radiation pattern of a given Pyramidal horn by PSOtting it variation with angle and variation with distance.
- To study electronic structure of Ti C/TiN/MgB2 using WEIN 2K.calculate:
(i) Electronic density (ii) density of states (iii) band structure
(iv)Fermi surface (v) volume optimization
- To study Gunn oscillator as a source of microwave power and study I V characteristic, power and frequency vs bias characteristics and power frequency characteristic.
- To determine ultrasonic velocity and compressibility of a given liquid sample using ultra sonic interferometer.
- To study absorption of particles and determine range using at least two sources.
- To study electronic structure of Si/Al/Na using Quantum Espresso/Abinit.
- Use P spice to study
(i) Inverting amplifier
(ii) Non inverting amplifier
