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+2 PHYSICS
PREPARED BY J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics]
PRACTICAL
VICTORY
PHYSICS
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+2 PHYSICS PRACTICAL
Internal assesssment:
1. Attendance 5 mark 2. Performance while doing the experiment 5 mark 3. Record note book 10 mark
5 + 5 + 10 = 20 marks.
External Examination marks:
1. Formula 2 mark, explanation of terms in the formula 2 mark = 4 mark 2. Simplified procedure = 6 marks. If involved with circuit diagram for
procedure 3 mark and for circuit diagram 3 mark = 6 mark 3. For observations ( Tabular columns) = 10 mark 4. Calculations = 8 mark 5. For correct result with unit 2 mark
Total = 4 + 6 + 10 + 8 + 2 = 30 marks.
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S.No DATE CONTENT PAGE No
TEACHER’S SIGNATURE
1. Spectrometer – μ of a solid prism
4
2. Spectrometer – Grating – Wavelength of composite light
8
3. Metre Bridge
12
4. Potentiometer
16
5. Tangent Galvanometer
20
6. Sonometer - Frequency of AC
24
7. Junction diode and zener diode
28
8. Common emitter NPN Transistor characteristics
32
9. Operational Amplifier
36
10. Integrated Logic Gates
40
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DIAGRAM:(Not necessary) To find the angle of prism A To find the angle of minimum deviation D
OBSERVATION:
To find the angle of Prism ‘A’ L.C = 1’
RAY
VERNIER I VERNIER II
MSR VC TR =
MSR+ (VCXLC)
MSR VC TR =
MSR+ (VCXLC)
Reading of the image
reflected from the one
face (R1)
Reading of the image
reflected from other
face (R2)
2A= R1~ R2 2A= R1~ R2
Mean 2A =
A =
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1. SPECTROMETER
µ OF A SOLID PRISM AIM: To determine the angle of a given prism and its angle of minimum deviation and hence calculate its refractive index. APPARATUS: Spectrometer, solid prism, sodium vapour lamp etc. FORMULA :
Refractive index of the material of the given prism µ =./0
1234
./0 14
(No unit)
Where A is the angle of the prism D is the angle of minimum deviation PROCEDURE:
I. To determine the angle of the prism 'A':
1. The preliminary adjustments of the spectrometer are made. 2. The prism is mounted vertically at the centre of the prism table. 3. Refracting edge of the prism placed facing the collimator. 4. Slit is fall almost equally on the two faces of the prism. 5. The image on one side is seen through the telescope and the vernier
readings (R1) are noted. 6. The image on other side is seen through the telescope and the vernier
readings (R2) are noted. 7. 2A = R1 ~ R2 . Hence angle of prism ‘A’ can be calculated.
II. To determine the angle of minimum deviation 'D':
1. The edge of the prism is turned away from the collimator. 2. The refracted image of the slit can be seen. The prism table is slightly
rotated. 3. The image moves, then stops and turns back. The position where it
turns back is the minimum deviation. 4. The vernier readings (R3) are noted at this position and the direct ray
reading (R4) are noted.
5. The angle of minimum deviation D = R3 ~ R4
6. The refractive index of the prism is calculated using µ = sin A+D
2
sin A2
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To find the angle of minimum deviation ‘D’ L.C = 1’
RAY
VERNIER I VERNIER II
MSR VC TR =
MSR+(VCXLC)
MSR VC TR =
MSR+(VCXLC)
Reading of the image
in minimum
deviation position
(R3)
Reading of the direct
image (R4)
D= R3~ R4 D= R3~ R4
Mean D =
CALCULATIONS: To find “A”
To find “D”
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To find µ
µ = sin A+D
2
sin A2
RESULT:
1. The angle of the prism A = (degree)
2. The angle of minimum deviation D = (degree)
3. Refractive index of the material of the given prism µ = (no unit)
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DIAGRAM: (Not necessary) Adjusting the grating for normal incidence:
Determination of angle of diffraction:
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2. SPECTROMETER – GRATING
WAVELENGTH OF COMPOSITE LIGHT AIM :
To determine the wavelength of the composite light using a diffraction grating and a spectrometer.
APPARATUS: Spectrometer, plane diffraction grating, mercury vapour lamp, etc.
FORMULA :
The wavelength (λ) of a spectral line using normal incidence arrangement
of the grating is given by λ = ./0 6
78 A0
Where θ is the angle of diffraction m is the order
N is the number of lines per unit length drawn on the grating
PROCEDURE:
1. The preliminary adjustments for telescope are made.Grating is mounted on the prism table.
2. The direct image is seen through telescope and the vernier readings (R1) are tabulated.
3. Telescope rotated through 900 and fixed. The prism table rotated against 450.
4. First order diffracted image is obtained in the telescope. 5. Reading (R2)are noted for blue, green and yellow rays. 6. Angle of diffraction θ = R1~ R2 is calculated.
7. The wavelength (λ) of a spectral line using λ = ./0 6
78 A0
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OBSEVATIONS: Number of lines per unit length of the grating N = 6 X 105 lines per metre L.C = 1’
RAY
VERNIER I VERNIER II
Mean θ
MSR VC TR =MSR+ (VC X LC)
MSR VC TR = MSR+ (VC X LC)
Direct ray reading (R1)
Diffracted Ray(R2)
BLUE
9: =
GREEN
9; =
YELLOW
9< =
CALCULATIONS:
λB = ./0 6=
78
=
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λG = ./0 6>
78
=
λY = ./0 6?
78
=
RESUST:
1. wavelength of blue colour λB = A0
2. wavelength of green colour λG = A0
3. wavelength of yellow colour λY = A0
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CIRCUIT DIAGRAM: Before interchanging
After interchanging
OBSERVATIONS : (i)To determine the resistance of the given coil
S.No R
(Ω)
Balancing length
Mean X = R
@A
@B
(Ω)
Before interchanging
After interchanging
l1(cm) l2=(100-l1) (cm)
l4(cm) l3=(100-l4) (cm)
lR = @CD@E
F
(cm)
lx = @FD@G
F
(cm)
1
2
3
4
5
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3.METRE BRIDGE
DETERMINATION OF RESISTANCE AND SPECIFIC RESISTANCE
AIM: To determine the resistance of the given coil of wire using a meter bridge and to calculate the specific resistance of the material of the wire. APPARATUS: Meter bridge, Lechlanche cell, Resistance box galvanometer, plug key, High Resistance, wires, screw gauge etc. FORMULA:
Resistance of the wire X = R HI
HJ Ω
Specific resistance of the material of the wire ρ = KL4M
H Ω m
Where X is unknown resistance R is known resistance, NOis the balancing length of R
NP is the balancing length of X. r is the radius of the wire N is the length of the wire
PROCEDURE:
1. The connections are made as shown in the circuit diagram. 2. The suitable resistance R is set, the Jockey is pressed on the metre
bridge wire. 3. The point (J) where the galvanometer shows null deflection is noted. 4. The balancing length AJ =l1 is measured and l2= (100 - l1) is calculated. 5. The resistance R is increased the balancing length is determined. 6. R and X are interchanged and the experiment is repeated as before, for
same values of resistance. 7. The balancing length AJ =l4 is measured and l3 = (100 –l4 ) is calculated.
8. The unknown resistance X = R HQ
HJ , where lR =
HRDHS
Tand lx =
H4DHU
T
9. The specific resistance of the wire is calculated from formula ρ = KL4M
H
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(ii)To determine the radius of the coil L.C = 0.01×10–3m
ZERO ERROR = ZERO CORRECTION =
S.No PSR (mm)
HSC CHSC TR = PSR+(CHSC X L.C) (mm)
1
2
3
4
Mean d =
Radius r =
CALCULATIONS:
S.NO lR =
HRDHS
T lx =
H4DHU
T X = R
HQ
HJ
1.
2.
3.
4.
5.
Mean =
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Calculation of specific resistance ρ:
ρ = KL4M
H
RESULT:
1. Resistance of the wire X =......... Ω
2. Specific resistance of the material of the wire ρ =...............Ω m
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CIRCUIT DIAGRAM:
OBSERVATION:
S.No
Balancing length
for Lechlanche cell
@Ccm
Balancing length
for Daniel cell
@Fcm
WC
WF=
@C
@F
1
2
3
4
5
6
Mean =
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4.POTENTIOMETER
COMPARISION OF EMFS OF TWO CELLS AIM: To compare the emfs of two primary cells using a potentiometer. APPARATUS: Potentiometer, rheostat, 2V battery, plug key, DPDT switch, galvanometer, high resistance, wires etc. FORMULA:
The ratio of the emf of the two cell is YR
Y4=
HR
H4 (No unit)
Where Z[ − emf of primary cell 1 (Lechlanche cell)
ZT − emf of primary cell 2 (Daniel cell)
N[ − is the balancing length for cell 1
NT − is the balancing length for cell 2
PROCEDURE:
1. The connections are made as shown in the circuit diagram. 2. Leclanche cell is ON using DPDT switch. The jockey is pressed on the
potentiometer wire. 3. Galvanometer shows null deflection at the point is noted and balancing
length N[ is measured 4. Daniel cell is ON using DPDT switch. The jockey is pressed on the
potentiometer wire and the balancing length NT is measured.
5. By changing the rheostat values N[, NT are measured and the readings are tabulated.
6. The mean ratio of emf is calculated using the formula YR
Y4=
HR
H4
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CALCULATIONS:
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RESULT: The mean ratio of emf of the two cells = (no unit)
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CIRCUIT DIAGRAM:
OBSERVATIONS :
S.No Current
I (A)
Deflection of T.G. (degree) mean θ
Tan θ ]
^_` a
θ1 θ2 θ3 θ4
1
2
3
4
mean
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5.TANGENT GALVANOMETER
DETERMINATION OF BH AIM : To determine the value of the horizontal component of earth’s magnetic field (BH) using tangent galvanometer. APPARATUS: Tangent galvanometer, ammeter, commutator, battery, plug key, rheostat, wires etc. FORMULA:
BH = µ0c
2d e
fdc g Tesla
Where BH – horizontal component of earth’s magnetic field µ0 – permeability of free space(4π x10-7 H/m) n – number of turns of T.G I – current, a – radius of T.G coil θ – mean deflection produced in T.G
PROCEDURE:
1. The preliminary adjustments of the tangent galvanometer are done. The connections are made as shown in the circuit diagram.
2. A suitable current pass through tangent galvanometer, the readings θ1and θ2 are noted.
3. The commutator is reversed, and the readings θ3 and θ4 , are noted. The readings are tabulated.
4. Now the mean deflection θ = hRDh4DhSDhU
i is calculated.
5. The experiment is repeated by changing the current and readings are tabulated.
6. The circumference of the T.G coil (2πa) is measured and from which ‘2a’ is calculated.
7. The horizontal component of earth’s magnetic field BH is determined
using the formula BH = µ0c
2d e
fdc g
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CALCULATION: Circumference of the coil (2πa) = 50 X 10-2 m 2a = 0.1592m
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RESULT: The horizontal component of earth’s magnetic field (BH) = x10-5 Tesla
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OBSERVATIONS :
S.No: Load
M (kg)
Length of the vibrating segment Mean
ℓ (cm) T = Mg
(newton)
√k
√k@
ℓ1(cm) ℓ2(cm)
1.
2.
3.
4.
Mean √l
H =
To determine the radius of the sonometer wire LC = 0.01 × 10–3m ZERO ERROR = ZERO CORRECTION =
S.No PSR(mm) HSC CHSC(mm) TR = PSR+(CHSC X L.C) (mm)
1 0
2 0
3 0
4 0
Mean d = x10–3m Radius r = x10–3m
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6.SONOMETER
FREQUENCY OF AC
AIM: To determine the frequency of the ac main using a sonometer APPARATUS: Sonometer, weights, a bar magnet etc. FORMULA:
The frequency of the A.C main n= 1
2√n√o
N Hz
Where, T is the tension of the sonometer wire, ℓ is the resonating length, m is the linear density of the wire PROCEDURE:
1. The ends of the sonometer wire are connected to a suitable power supply of 6 V A.C.
2. A magnet bar is held at the centre of the wire. 3. The sonometer wire is subjected to a suitable load 4. Two movable bridges are placed under the wire. 5. A paper rider is placed between the movable bridges. 6. The bridges are adjusted until the paper rider flutters and falls down.
The distance (ℓ)between the bridges is measured. 7. The experiment is repeated for different loads and the readings are
tabulated. 8. The radius of the sonometer wire (r) is measured. The linear density of
the wire is m = π r2ρ, where ρ is its density.
9. The frequency of the A.C main is calculated from the formula n= 1
2√n√o
N
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CALCULATION
Radius of the wire r = p
T
Density of the given ( ) wire (ρ) = kgm–3
Linear density m = π r2ρ
[
T√q =
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RESULT :
The frequency of the ac main n = Hz
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CIRCUIT: JUNCTION DIODE- FORWARD BIAS
ZENER DIODE- RIVERSE BIAS
OBSERVATION: Junction diode forward bias
Slope = rs
st =
∆vw
∆xw
S.No VF (V) IF (mA)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
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7.JUNCTION DIODE AND ZENER DIODE
AIM: To study the forward bias characteristics of a PN junction diode and to determine the forward resistance of the diode. To study the reverse breakdown characteristics of the zener diode. APPARATUS: Variable power supply, junction diode , zener diode, milliammeter, voltmeter etc. FORMULA:
Forward resistance of the PN junction diode RF = ∆yz
∆z Ω
Where ∆VF - is the forward voltage ∆IF - is the forward current PROCEDURE:
I. Junction diode (Forward bias)
1. The connections are made as shown in the circuit diagram. 2. For various forward voltages VF, the forward current IF is measured and
the readings are tabulated. 3. Draw the graph by ploting VF in X –axis and IF in Y – axis. 4. The inverse of the slop gives forward resistance of the diode.
II. Zener diode (Riverse bias)
1. The connections are made as shown in the circuit diagram. 2. For various voltage Vo, the zener current IZ is measured and the
readings are tabulated. 3. Draw the graph by ploting the Vo in negative X – axis and IZ in negative
Y – axis. 4. Zener breakdown voltage is calculated from the graph.
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OBSERVATIONS : Junction diode reverse bias
Zener breakdown voltage = V CALCULATION:
Slope = |
~ =
∆z
∆yz
RF = [
. =
~
|
= ∆yz
∆z
S.No VO (V) IZ(mA)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
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RESULT:
1. The forward resistance of the junction diode = Ω
2. The zener breakdown voltage = V
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CIRCUIT DIAGRAM:
INPUT CHARACTERISTICS (VCE = 5V)
Slope = |
~ =
∆=
∆y=
ri = [
. =
∆y=
∆=
S.No VBE (V) IB(µA)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
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8.COMMON EMITTER NPN TRANSISTOR
CHARACTERISTICS
AIM: To study the characteristics of a common Emitter NPN transistor and to determine its input impedance and current gain. APPARATUS: NPN Transistor, power supply, microammeter, milliammeter, voltmeter etc. FORMULA:
1. Input impedance ri = ∆y=
∆= Ω
2. Current gain β = ∆
∆= (No unit)
Where ∆V - is the change in base emitter voltage , ∆I - is the change in base current ∆I~ - is the change in collector current
PROCEDURE:
I. INPUT CHARACTERISTICS: 1. The connections are made as shown in the circuit diagram. 2. VCE is kept constant at 5 V, IB is set at 20 µA and is VBE noted. 3. For various IB values the VBE is measured and the readings are
tabulated. 4. A graph is plotted by taking VBE along X – axis and IB along y – axis. 5. The input impedance is calculated from the reciprocal of the slope of
the curve using the formula ri = ∆y=
∆=
II. TRANSFER CHARACTERISTICS:
1. The connections are made as shown in the circuit diagram 2. VCE is kept constant at 5 V, for varies values of IB and the IC
readings are tabulated. 3. Plot the graph, IB along X – axis and IC along y – axis. 4. The current gain is calculated from the reciprocal of the slope of the
curve using the formula β = ∆
∆=
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TRANSFER CHARACTERISTIC ( VCE = 5V )
CALCULATIONS:
β = slope = rs
st
= ∆
∆=
S.No IB(µA) Ic(mA)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
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J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 35
RESULT:
1. The input and transfer characteristic curves of the transistor in CE configuration are drawn.
2. The input impedance ri = Ω
3. The current gain β = (no unit)
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 36
CIRCUIT - INVERTING AMPLIFIER SUMMING AMPLIFIER
OBSERVATION - INVERTING AMPLIFIER:
SET S.NO Rs (Ω) Rf (Ω) Vin(V) Vout(V)
Experimental Gain AV = ( V0 /Vin )
Theoretical Gain
AV = -( Rf /Rs)
I
1 10K 22K 1 -2.2
2 10K 22K 1.5 -2.2
3 10K 22K 2 -2.2
4 10K 22K 2.5 -2.2
II
1 10K 10K 1 -1.0
2 10K 22K 1 -2.2
3 10K 33K 1 -3.3
4 10K 47K 1 -4.7
SUMMING AMPLIFIER:
R1 = R2 = Rf = 10 K Ω
S.NO V1
(Volt) V2
(Volt)
Experimental Output voltage V0
(Volt)
Theoretical output voltage V0 = - (V1 + V2) (Volt)
1 1.0 0.5 -1.5
2 1.0 1.0 -2.0
3 1.0 1.5 -2.5
4 1.0 2.0 -3.0
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 37
9. OPERATIONAL AMPLIFIER
AIM: To construct 1) an inverting amplifier 2) summing amplifier and study their performance using IC 741 APPARATUS: IC 741 , Bread board, dual power supply 12 V, resistor 10 K, 22 K, 33 KΩ,47 KΩ, voltmeter, etc FORMULA:
1. Voltage gain of the inverting amplifier AV = y
y = -
z
2. The output voltage of the inverting summing amplifier, V0 = – (V1 +V2)
Where V0 is output voltage, Vin, V1 and V2 are the input voltages, Rf and Rs are the external resistances. PROCEDURE: I. INVERTING AMPLIFIER:-
1. Connections are made as shown in the circuit diagram using OP AMP IC 741
2. Keep RS = 10 KΩ, and RF = 22 KΩ. 3. Set input voltages Vin =1 V , and measure the output voltages V0 . 4. Repeat for various values of Vin = 1.5V,2 and 2.5 V and the readings
are tabulated. 5. Keeping Vin =1 V and Rs = 10 KΩ for RF =10 KΩ,22 KΩ,33 KΩ & 47 KΩ.
6. The voltage gain calculated as Experimental gain AV = y
y and the
theoretical gain AV = - z
7. Compare and verify experimental value with the theoretical value.
II. SUMMING AMPLIFIER:- 1. Connections are made as shown in the circuit diagram using OP AMP
IC 741. 2. Keep R1 = R2 =RF = 10 K Ω. 3. The input voltages are kept as VI = 1V, V2 =2V and measure the output
voltage Vo. 4. The experiment is repeated for different sets of values for V1 and V2
and the readings are tabulated. 5. Verify the summing action of the amplifier is verified.
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 38
CALCULATION: Inverting amplifier - Experimental Gain
Theoretical Gain
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 39
Summing amplifier
1. Vo = – (V1 + V2) =
2. Vo = – (V1 + V2) =
3. Vo = – (V1 + V2) =
4. Vo = – (V1 + V2) =
RESULT :
1. The inverting amplifier are constructed using OP-AMP and gain is determined.
2. The inverting summing amplifier is constructed and the output voltage is
found to be the sum of the applied input voltages
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 40
PIN CONFIGURATIONS:( Not necessary) 1)For IC’s 7400 (NAND), 7408(AND), 7432(OR), 7486(EX-OR)
2) For IC 7402(NOR) - Quad 2 input 3) Hex inverter NOT (7404)
CIRCUIT DIAGRAM:
IC 7432 (OR) TRUTH TABLE (OR)
A B Y = A+B
0 0 0 1 1 0
1 1
IC 7408 (AND) TRUTH TABLE (AND)
A B Y = A.B
0 0 0 1 1 0
1 1
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 41
10. INTEGRATED LOGIC GATE CIRCUITS
AIM: Study the truth table of logic circuits OR, AND, NOT, NOR,NAND, and
EX-OR. APPARATUS: IC TRAINER KIT, ICs 7400, 7402, 7404, 7408, 7432, and 7486
FORMULA:
1. OR function Y =A + B 2. AND function Y = A.B
3. NOT function Y = A
4. NOR function Y = A + B
5. NAND function Y= A. B
6. EXOR function Y= Y=A⨁B =AB+AB
Where A and B are inputs and Y is the output.
PROCEDURE:
S.No Gate Boolean
expression IC
Number
Input Output
1 OR Y = A+B 7432 1,2 3
2 AND Y = A.B 7408 1,2 3
3 NOT Y = 7404 1 2
4 NOR Y = + : 7402 2,3 1
5 NAND Y = . : 7400 1,2 3
6 EX-OR Y= ⨁:=AB+AB 7486 1,2 3
1. Place the suitable IC on the IC TRAINER KIT. 2. The connections are made as shown in pin configuration diagram of the
gates. 3. For various input combinations, the output LED is checked. 4. If the LED is OFF, the output is logic ‘0’ 5. If the LED is ON, the output is logic ‘1’ 6. Verify the truth table in all the possible input combinations. 7. Comment on the logic function of the IC. 8. Repeat the above steps in all the ICs.
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 42
IC 7404 (NOT) TRUTH TABLE(NOT)
A Y=
0
1
IC 7402 (NOR) TRUTH TABLE (NOR)
A B Y= + : 0 0 0 1 1 0
1 1
IC 7400 (NAND) TRUTH TABLE (NAND)
A B Y = . :
0 0 0 1 1 0
1 1
IC 7486 (EX-OR) TRUTH TABLE (EX-OR)
A B Y=⨁:
0 0 0 1 1 0
1 1
CALCULATION:
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LIONS MATRIC HIGHER SECONDARY SCHOOL, PARAMAKUDI
J.SHANMUGAVELU M.Sc, B.Ed [P.G. Assist. in Physics] Ph.No: 9952223467 43
RESULT: The performance of digital gates OR, AND, NOT, NAND, NOR and EX-OR
are verified using IC chips.
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