Lab Course II

Paper Code:

PHY-616

Credits:

Contact Hours:

60.00

Max. Marks:

100.00

Objective:

This course will enable the students to –

This course introduces students to the methods of experimental physics. Emphasis is given on laboratory techniques such as accuracy of measurements and data analysis. The concepts that are learnt in the lecture sessions are translated to the laboratory sessions thus providing a hands-on learning experience.

Course Outcomes (COs):

Course	Learning outcome (at course level)	Learning and teaching strategies	Assessment Strategies
Paper Code	Paper Title
PHY-616	Lab Course II (Practical)	This course will enable the students to – CO188: Apply knowledge of mathematics and physics fundamentals and an instrumentation technique to arrive at solution for various problems. CO189: Learn about the Basics Of Instrumentation, Data Acquisition And Interpretation of results. CO190: Learn about accuracy and precision, different types of errors and statistical analysis of data. CO191: Understand the behaviour of electronic components and perform analysis and design of bias circuits for diodes, transistors etc. CO192: To analyze nanoparticles spectra by FTIR, UV-VIS and XRD Spectra.	Approach in teaching: Demonstration, Group activity, Discussion ,Conduction of Experiments Learning activities for the students: Performing Experiments, Observations, Analysis and interpretation of results.	Class test, Semester end examinations, Viva voce, Practical record file

Course

Learning outcome (at course level)

Learning and teaching strategies

Assessment Strategies

Paper Code

Paper Title

PHY-616

Lab Course II (Practical)

This course will enable the students to –

CO188: Apply knowledge of mathematics and physics fundamentals and an instrumentation technique to arrive at solution for various problems.

CO189: Learn about the Basics Of Instrumentation, Data Acquisition And Interpretation of results.

CO190: Learn about accuracy and precision, different types of errors and statistical analysis of data.

CO191: Understand the behaviour of electronic components and perform analysis and design of bias circuits for diodes, transistors etc.

CO192: To analyze nanoparticles spectra by FTIR, UV-VIS and XRD Spectra.

Approach in teaching:

Demonstration, Group activity, Discussion ,Conduction of Experiments

Learning activities for the students:

Performing Experiments, Observations, Analysis and interpretation of results.

Class test, Semester end examinations, Viva voce, Practical record file

List of Experiments

1.To study amplitude modulation and demodulation and measure modulation index.

2.To study single side band AM using balanced modulator.

3.Study the frequency response of a transistor wide band amplifier with and without feedback. Also obtain input and output impedance of the amplifier.

4.To determine the recovery time of a diode.

5.Demonstration of Training modules on Solar energy, wind energy, etc.

6.To study Hall Effect and to determine Hall coefficient.

7.To analyze nanoparticles spectra by FTIR spectroscopy.

8.To study the optical properties of nanoparticles by UV-VIS spectroscopy.

9.To study the structural properties of nanoparticles by XRD Spectra.

Academic Year:

2018-2019

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