📖 generic · 12th TN - English Medium · PHYSICS -VOLUME 1 · Page 324question

10.  VERIFICATION OF DE MORGAN’S THEOREMS · Part 2

Chapter 8: 10.  VERIFICATION OF DE MORGAN’S THEOREMS · PHYSICS -VOLUME 1

the radius of the wire using screw gauge and hence determine the specific resistance of the material of the wire. Take at least readings. . Determine the value of the horizontal component of the Earth’s magnetic field, using tangent galvanometer.

Take at least readings. . Compare the emf of two cells using potentiometer. .

Using the spectrometer, measure the angle of the given prism and angle of minimum deviation. Hence calculate the refractive index of the material of the prism. . Adjust the grating for normal incidence using the spectrometer.

Determine the wavelength of green, blue, yellow and red lines of mercury spectrum (The number of lines per metre length of the grating can be noted from the grating). . Draw the V-I characteristics of PN junction diode and determine its forward resistance and knee voltage from forward characteristics. .

Draw the V-I characteristics of Zener diode and determine its forward resistance and knee voltage from forward characteristics. Also find break down voltage of the Zener diode from reverse characteristics. . Draw the input and transfer characteristic curves of the given NPN junction transistor in CE mode.

Find the input impedance from input characteristics and current gain from transfer characteristics. . Draw the output and transfer characteristic curves of the given NPN junction transistor in CE mode. Find the output impedance from output characteristics and current gain from transfer characteristics.

. Verify the truth table of logic gates AND, NOT, Ex-OR and NOR gates using integrated circuits. . Verify the truth table of logic gates OR, NOT, Ex-OR and NOR gates using integrated circuits.

. Verify De Morgan’s first and second theorems. XII- - ) XII- - ) - - - - Consider the following charged object of irregular shape as shown in Figure A1. .

The entire charged object is divided into a large number of charge elements ∆ ∆ ∆ ∆ q n , , ...... and each charge element ∆ q is taken as a point charge. q q q

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