30016: Engineering Physics Practical-I 1st Sem Syllabus for Diploma TNDTE M Scheme

Engineering Physics Practical-I detail TNDTE Diploma syllabus for 1st Sem M scheme is extracted from TNDTE official website and presented for diploma students. The course code (30016), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below. The syllabus PDFs can be downloaded from official website.

For all other 1st sem syllabus for diploma m scheme tndte you can visit 1st Sem Syllabus for Diploma M Scheme TNDTE Subjects. The detail syllabus for engineering physics practical-i is as follows.

Rationale:

In Diploma level engineering education skill development plays a vital role. The skill development can be achieved by on hand experience in handling various instruments, apparatus and equipment. This is accomplished by doing engineering related experiments in practical classes in various laboratories.

Guidelines:

• All the Eight experiments given in the list of experiments should be completed and given for the end semester practical examination.
• In order to develop best skills in handling Instruments / Equipment and taking readings in the practical classes, every two students should be provided with a separate experimental setup for doing experiments in the laboratory.
• The external examiners are requested to ensure that a single experimental question should not be given to more than four students while admitting a batch of 30 students during Board Examinations.

List Of Experiments With Objectives:

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List of Equipments

1. Micrometer (Screw Gauge).

Screw gauge, graph sheet and irregular glass plate.

2. Vernier Calipers

Vernier Calipers and Solid Cylinder

3. Concurrent Forces.

Vertical drawing board, two Z pulleys, three sets of slotted weights (5 x 50g) and twine thread.

4. Comparison Of Viscosities

Burette stand, graduated burette without stopper, rubber tube, Capillary Tube, beaker, digital stop watch,twoliquids and funnel.

5. Stokes’ Method.

Stokes’ Apparatus, high viscous liquid (Castrol oil), glass beads of Different radii, digital stop watch and screw gauge.

6. Surface Tension.

Beaker with water, capillary tube, iron stand with clamp, pointer, Travelling microscope and hydro static bench.

7. Sonometer.

Sonometer, screw gauge, tuning fork, rubber hammer, slotted weight hanger set (5 x 0 5kg) and paper rider.

scale and two bar magnets.

8. Deflection Magnetometer

Deflection Magnetometer, meter scale and two bar magnets

Model Question Paper

1. Measure the thickness of the given irregular glass plate using micrometer. Determine the area of the glass plate using a graph sheet and calculate the volume of the glass plate.
2. Measure the length and diameter of the given solid cylinder using Vernier calipers and then calculates the volume of the solid cylinder.
3. Verify the parallelogram law of forces and Lami’s theorem using concurrent forces.
4. Compare the coefficient of viscosity of two Liquids by capillary flow method, using graduated burette.
5. Determine the coefficient of viscosity of a high viscous liquid by Stokes’ method.
6. Determine the surface tension of water by capillary rise method.
7. Determine the frequency of the given tuning fork using sonometer.
8. Compare the magnetic moments of the two bar magnets using deflection magnetometer in Tan-A position, by equal distance method

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