Supply Of Laboratory Equipment And Supply Of Computer And Computer Accessories, Muralidhar Girls College-West Bengal

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Muralidhar Girls College , West Bengal

Tender Brief : Supply Of Laboratory Equipment And Supply Of Computer And Computer Accessories

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Submission Date
24-12-2019

Competition Type
Indian

Bidding Type
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Name of Work: Supply of Laboratory Equipment & Supply of Computer & Computer Accessories
1	1	Computer & Accessories	1
2	2	PC Less Projector with Screen	2	1	Nos
3	3	Projector Screen (6’ x 4’) with Stand	3	1	Nos
4	4	Laptop	4	1	Nos
5	5	Desktop with APC 600 VA UPS	5	1	Nos
6	6	Printer	6	1	Nos
7	7	Laser Printer	7	1	Nos
8	8	Journalism	8
9	9	SONY: CX470 Handycam® with Exmor R® CMOS sensor	9	1	Nos
10	10	Psychology	10
11	11	Pneumograph	11	1	Nos
12	12	WAIS II	12	1	Nos
13	13	RESCORDER	13	1	Nos
14	14	16 P.F.	14	1	Nos
15	15	Film Studies	15
16	16	Wall mount Screen	16	1	Nos
17	17	DSLR	17	1	Nos
18	18	C10 Cards 64 GB	18	1	Nos
19	19	Tripod	19	1	Nos
20	20	Artificial Light	20	1	Nos
21	21	External Microphone	21	1	Nos
22	22	Desktop with Sound Box, Graphics Card. Specifications: 7th Generation Intel Core i7, 64 bit Operating System, 16 GB Ram, Memory Space: 1TB or more. Monitor 24\"	22	1	Nos
23	23	Geography	23
24	24	Theodolite (20’’ vernier) with all accessories	24	1	Nos
25	25	Fortin’s Barometer	25	1	Nos
26	26	Refractometer : for salinity measurement	26	1	Nos
27	27	Glass dropper	27	1	Nos
28	28	Battery operated portable digital Ph meter with electrode : Approx size 125mm75mm25mm	28	1	Nos
29	29	distilled water 5 litres jar	29	1	Nos
30	30	buffer capsule of pH value 7,4 and 9.2	30	1	Nos
31	31	hot air oven with temperature control	31	1	Nos
32	32	digital weighing machine of 0.001 gm to 200 gm measurement capability	32	1	Nos
33	33	mechanical stirrer with RPM meter	33	1	Nos
34	34	stainless steel spatula 6 meters long	34	1	Nos
35	35	mortar pestle (wooden/porcelain)	35	1	Nos
36	36	borosilicate glassware-petridish 7cm diameter	36	1	Nos
37	37	beaker of 250 ml	37	1	Nos
38	38	conical flask of 250 ml	38	1	Nos
39	39	glass funnel of 7.5 cm diameter	39	1	Nos
40	40	whatmann filter paper of 11 cm diameter	40	1	Nos
41	41	reagent glass bottle with glass cap of 250 ml	41	1	Nos
42	42	graduated pipette of 25 ml	42	1	Nos
43	43	plastic zip lock pouch	43	1	Nos
44	44	measuring cylinder of 100 ml	44	1	Nos
45	45	iron wire net with wooden frame for determination for plant species diversity 1mX1m wooden frame with 2 mmX2mm iron wire net	45	1	Nos
46	46	GNSS receiver (etrex 10)	46	1	Nos
47	47	Rain gauge	47	1	Nos
48	48	laser distance measurer	48	1	Nos
49	49	Physics	49
50	50	To determine Mechanical Equivalent of Heat, J, by Callender and Barne’s constant flow method (Complete experimental setup with)	50
51	51	Calendar and Barn’s continuous flow calorimeter.	51	1	Nos
52	52	AC Ammeter (0-3 A).	52	1	Nos
53	53	AC Voltmeter (0-10V).	53	1	Nos
54	54	Thermometers (0-100 degC)	54	1	Nos
55	55	Measuring Cylinder (0-100 mg)	55	1	Nos
56	56	DC Supply (2-12 V and 3A)	56	1	Nos
57	57	Three Flow water containing beaker.	57	1	Nos
58	58	Rubber tubing	58	1	Nos
59	59	Stop Watch	59	1	Nos
60	60	To determine Stefan’s Constant (Complete experimental setup with)	60
61	61	DC power supply 12V/250 mA	61	1	Nos
62	62	DC voltmeter 0- 12 V	62	1	Nos
63	63	DC ammeter 0 – 250 mA	63	1	Nos
64	64	DC bulb 12 V	64	1	Nos
65	65	Components are mounted on a board	65	1	Nos
66	66	Mains 220 V 50 Hz	66	1	Nos
67	67	Circuit & symbol diagram are printed on the front panel.	67	1	Nos
68	68	To determine the coefficient of thermal conductivity of Cu by Searle’s Apparatus.(Complete experimental setup with)	68
69	69	Searle’s thermal conductivity apparatus	69	1	Nos
70	70	Thermometers (1- 50 degC)	70	1	Nos
71	71	Constant level tank	71	1	Nos
72	72	Rubber tubing and measuring flask.	72	1	Nos
73	73	To determine the coefficient of thermal conductivity of a bad conductor by Lee and Charlton’s disc method (Complete experimental setup with)	73
74	74	Hollow metal box	74	1	Nos
75	75	MS chrome plated rod, thread reel, MS painted base	75	1	Nos
76	76	Chrome plated brass disc, disc made of ebonite and glass	76	1	Nos
77	77	Steam generator, steam chamber, glass beaker 250 mL	77	1	Nos
78	78	Lee disc stand with base plate	78	1	Nos
79	79	Thermometers (0 – 100 degC)	79	1	Nos
80	80	To determine the Moment of Inertia of a Flywheel. (Complete experimental setup with)	80
81	81	Flywheel with ball bearings	81	1	Nos
82	82	The bracket carrying the flywheel should be bolted to a vertical surface.	82	1	Nos
83	83	Weights (9*100 gm)	83	1	Nos
84	84	Stop watch	84	1	Nos
85	85	Others	85	1	Nos
86	86	To determine the Young's Modulus of a Wire by Optical Lever Method. (Complete experimental setup with)	86
87	87	Brass rod 1 mm	87	1	Nos
88	88	G clamps with sharp knife edges	88	1	Nos
89	89	Mirrors and holder	89	1	Nos
90	90	Slotted weights (500 gm)	90	1	Nos
91	91	Telescope	91	1	Nos
92	92	Cylindrical base	92	1	Nos
93	93	To determine the Modulus of Rigidity of a Wire by Maxwell’s needle. (Complete experimental setup with)	93
94	94	Hollow cylindrical brass tube of length 40 cm.	94	1	Nos
95	95	Maxwell’s needle, wall bracket, wire	95	1	Nos
96	96	Digital Weighing balance	96	1	Nos
97	97	To determine the elastic constant by Searle’s method (Complete experimental setup with)	97
98	98	SS rectangular bar each of length 30 cm – 2 nos	98	1	Nos
99	99	Vernier calliper, material : stainless steel, jaw depth 16 mm	99	1	Nos
100	100	Range: 0-150mm,least count – 0.01 mm	100	1	Nos
101	101	Screw guage	101	1	Nos
102	102	Stand for Searle’s experiment	102	1	Nos
103	103	To determine g by Bar Pendulum (Complete experimental setup with)	103
104	104	Brass bar 1003.750.5 square cm	104	1	Nos
105	105	Drilled with 19 holes at equal distance of 5 cm	105	1	Nos
106	106	Wall bracket	106	1	Nos
107	107	To study the Motion of a Spring and calculate (a) Spring Constant, (b) g. (Complete experimental setup with)	107
108	108	Adjustable scale on a stand of 37.5 cm	108	1	Nos
109	109	Helical springs with pointer	109	1	Nos
110	110	Hangers of 20 g weights	110	1	Nos
111	111	To compare capacitances using De’Sauty’s bridge (Complete experimental setup with)	111
112	112	Decade resistance 10, 100 and 1000 ohm 2 from each	112	1	Nos
113	113	Capacitor ( 0.1 microF, 0.2 microF) 2 from each	113	1	Nos
114	114	AC power supply of 10 kHz	114	1	Nos
115	115	Null detector (digital)	115	1	Nos
116	116	Components are mounted on a board with circuit and symbol	116	1	Nos
117	117	With banana patch cord	117	1	Nos
118	118	To study the Characteristics of a Series RC Circuit. (Complete experimental setup with)	118
119	119	DC power supply (0-12 V)	119	1	Nos
120	120	Voltmeter (0-12 V)	120	1	Nos
121	121	Galvanometer (1-0-1) (moving coil) 10 from each set	121	1	Nos
122	122	Resistance (10 Kohm,15Kohm, 18 Kohm)	122	1	Nos
123	123	Capacitors (1000 microF, 2200 microF, 4700 microF) 10 from each set	123	1	Nos
124	124	Toggle switch 2 ways	124	1	Nos
125	125	Dump switch	125	1	Nos
126	126	To study a series LCR circuit LCR circuit and determine its a. Resonant frequency b. Quality factor (Complete experimental setup with)	126
127	127	DC voltmeter (0 -5 V)	127	1	Nos
128	128	DC ammeter (0-25 mA)	128	1	Nos
129	129	Resistance (100 ohm, 150 ohm, 220 ohm)	129	1	Nos
130	130	Capacitors (0.1 microF, 0.2 microF, 0.3 microF)	130	1	Nos
131	131	Inductance (50 mH)	131	1	Nos
132	132	Signals generators	132	1	Nos
133	133	To determine a Low Resistance by Carey Foster’s Bridge. (Complete experimental setup with)	133
134	134	DC supply (1.5 V,250mA)	134	1	Nos
135	135	Decade resistance box (0.1 ohm to 10 ohm)	135	1	Nos
136	136	Galvanometer (30-0-30)	136	1	Nos
137	137	Resistance (10 ohm)	137	1	Nos
138	138	Carry foster bridge with jocky	138	1	Nos
139	139	To determine the frequency of a electrically maintained tunig fork by Melde’s experiment and to verify ?2– T Law. (Complete experimental setup with)	139
140	140	Heavy steel fork	140	1	Nos
141	141	Heavy cast iron base	141	1	Nos
142	142	Electromagnet	142	1	Nos
143	143	Weight box	143	1	Nos
144	144	Voltage source (1.5 V to 12 Volt, 3 A)	144	1	Nos
145	145	Pulley with clamp.	145	1	Nos
146	146	Reel of thread and pan.	146	1	Nos
147	147	To determine the Coefficient of Viscosity of water by Capillary Flow Method (Poiseuille’s method) (Complete experimental setup with)	147
148	148	Constant water level reservoir	148	1	Nos
149	149	Rubber tube	149	1	Nos
150	150	Thermometer	150	1	Nos
151	151	Pinch Cock	151	1	Nos
152	152	Graduated cylinder	152	1	Nos
153	153	Manometer with wooden stand	153	1	Nos
154	154	Glass capillary tube	154	1	Nos
155	155	Travelling microscope	155	1	Nos
156	156	a) To verify and design AND, OR, NOT and XOR gates using NAND gates.) (Complete experimental setup with)	156
157	157	Trainer consisting of solder-less bread-board having 1680 tie points i.e, provided with 2 terminal strips and 4 strips.	157	1	Nos
158	158	b) To minimize a given logic circuit. (Complete experimental setup with)	158
159	159	DC power supply. 5 Volt/1 A, +-12 Volt/500 mA.	159	1	Nos
160	160	LED indicator.	160	1	Nos
161	161	c) Half adder, Full adder and 4-bit Binary Adder (Complete experimental setup with)	161
162	162	Clock generator of 1 Hz, 10 Hz, 100 Hz, 1 kHz.	162	1	Nos
163	163	c) Adder-Subtractor using Full Adder I.C. (Complete experimental setup with)	163
164	164	Seven segment display with Decoder IC 7447 with user manual	164	1	Nos
165	165	c) To design an astable and monostable multivibrator of given specifications using 555 Timer (Complete experimental setup with)	165
166	166	DC power supply 5V, IC- NE555	166	1	Nos
167	167	Led indicator	167	1	Nos
168	168	Resistor 100kohm	168	1	Nos
169	169	Resistor 10 kohm	169	1	Nos
170	170	Resistor 1kohm	170	1	Nos
171	171	Capacitor (1 microF, 0.1 microF, 0.01 microF, 10 microF 10 from each value	171	1	Nos
172	172	Variable resistor (5 kohm)	172	1	Nos
173	173	To determine work function of material of filament of directly heated vacuum diode (Complete experimental setup with)	173
174	174	DC power supply (0- 250 V) Vacuum diode	174	1	Nos
175	175	DC voltmeter (0-150V) (0-6V)	175	1	Nos
176	176	DC ammeter (0-600 mA) (0-30mA)	176	1	Nos
177	177	Vacuum diode EZ80	177	1	Nos
178	178	Variable pot	178	1	Nos
179	179	To determine value of Planck’s constant using LEDs of at least 4 different colours (Complete experimental setup with)	179
180	180	DC supply (0-5V)(150mA)	180	1	Nos
181	181	DC voltmeter (0-5 V)	181	1	Nos
182	182	Ammeter (0 – 2000 micro A)	182	1	Nos
183	183	RED (630nM), yellow (578 nM), blue (436 nM), green (546 nM)	183	1	Nos
184	184	To determine the ionization potential of mercury. (Complete experimental setup with)	184
185	185	DC power supply (0-3 V) (50mA)	185	1	Nos
186	186	AC power supply 6.3 V to 0 V to 25 V, 500mA	186	1	Nos
187	187	DC voltmeter (0-30V)	187	1	Nos
188	188	DC ammeter (0-30mA)	188	1	Nos
189	189	others	189	1	Nos

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Supply Of Laboratory Equipment And Supply Of Computer And Computer Accessories, Muralidhar Girls College-West Bengal

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Name of Work: Supply of Laboratory Equipment & Supply of Computer & Computer Accessories
	Sl.No.	Item Description	Item Code / Make	Quantity	Units
1	1	Computer & Accessories	1
2	2	PC Less Projector with Screen	2	1	Nos
3	3	Projector Screen (6’ x 4’) with Stand	3	1	Nos
4	4	Laptop	4	1	Nos
5	5	Desktop with APC 600 VA UPS	5	1	Nos
6	6	Printer	6	1	Nos
7	7	Laser Printer	7	1	Nos
8	8	Journalism	8
9	9	SONY: CX470 Handycam® with Exmor R® CMOS sensor	9	1	Nos
10	10	Psychology	10
11	11	Pneumograph	11	1	Nos
12	12	WAIS II	12	1	Nos
13	13	RESCORDER	13	1	Nos
14	14	16 P.F.	14	1	Nos
15	15	Film Studies	15
16	16	Wall mount Screen	16	1	Nos
17	17	DSLR	17	1	Nos
18	18	C10 Cards 64 GB	18	1	Nos
19	19	Tripod	19	1	Nos
20	20	Artificial Light	20	1	Nos
21	21	External Microphone	21	1	Nos
22	22	Desktop with Sound Box, Graphics Card. Specifications: 7th Generation Intel Core i7, 64 bit Operating System, 16 GB Ram, Memory Space: 1TB or more. Monitor 24\"	22	1	Nos
23	23	Geography	23
24	24	Theodolite (20’’ vernier) with all accessories	24	1	Nos
25	25	Fortin’s Barometer	25	1	Nos
26	26	Refractometer : for salinity measurement	26	1	Nos
27	27	Glass dropper	27	1	Nos
28	28	Battery operated portable digital Ph meter with electrode : Approx size 125mm75mm25mm	28	1	Nos
29	29	distilled water 5 litres jar	29	1	Nos
30	30	buffer capsule of pH value 7,4 and 9.2	30	1	Nos
31	31	hot air oven with temperature control	31	1	Nos
32	32	digital weighing machine of 0.001 gm to 200 gm measurement capability	32	1	Nos
33	33	mechanical stirrer with RPM meter	33	1	Nos
34	34	stainless steel spatula 6 meters long	34	1	Nos
35	35	mortar pestle (wooden/porcelain)	35	1	Nos
36	36	borosilicate glassware-petridish 7cm diameter	36	1	Nos
37	37	beaker of 250 ml	37	1	Nos
38	38	conical flask of 250 ml	38	1	Nos
39	39	glass funnel of 7.5 cm diameter	39	1	Nos
40	40	whatmann filter paper of 11 cm diameter	40	1	Nos
41	41	reagent glass bottle with glass cap of 250 ml	41	1	Nos
42	42	graduated pipette of 25 ml	42	1	Nos
43	43	plastic zip lock pouch	43	1	Nos
44	44	measuring cylinder of 100 ml	44	1	Nos
45	45	iron wire net with wooden frame for determination for plant species diversity 1mX1m wooden frame with 2 mmX2mm iron wire net	45	1	Nos
46	46	GNSS receiver (etrex 10)	46	1	Nos
47	47	Rain gauge	47	1	Nos
48	48	laser distance measurer	48	1	Nos
49	49	Physics	49
50	50	To determine Mechanical Equivalent of Heat, J, by Callender and Barne’s constant flow method (Complete experimental setup with)	50
51	51	Calendar and Barn’s continuous flow calorimeter.	51	1	Nos
52	52	AC Ammeter (0-3 A).	52	1	Nos
53	53	AC Voltmeter (0-10V).	53	1	Nos
54	54	Thermometers (0-100 degC)	54	1	Nos
55	55	Measuring Cylinder (0-100 mg)	55	1	Nos
56	56	DC Supply (2-12 V and 3A)	56	1	Nos
57	57	Three Flow water containing beaker.	57	1	Nos
58	58	Rubber tubing	58	1	Nos
59	59	Stop Watch	59	1	Nos
60	60	To determine Stefan’s Constant (Complete experimental setup with)	60
61	61	DC power supply 12V/250 mA	61	1	Nos
62	62	DC voltmeter 0- 12 V	62	1	Nos
63	63	DC ammeter 0 – 250 mA	63	1	Nos
64	64	DC bulb 12 V	64	1	Nos
65	65	Components are mounted on a board	65	1	Nos
66	66	Mains 220 V 50 Hz	66	1	Nos
67	67	Circuit & symbol diagram are printed on the front panel.	67	1	Nos
68	68	To determine the coefficient of thermal conductivity of Cu by Searle’s Apparatus.(Complete experimental setup with)	68
69	69	Searle’s thermal conductivity apparatus	69	1	Nos
70	70	Thermometers (1- 50 degC)	70	1	Nos
71	71	Constant level tank	71	1	Nos
72	72	Rubber tubing and measuring flask.	72	1	Nos
73	73	To determine the coefficient of thermal conductivity of a bad conductor by Lee and Charlton’s disc method (Complete experimental setup with)	73
74	74	Hollow metal box	74	1	Nos
75	75	MS chrome plated rod, thread reel, MS painted base	75	1	Nos
76	76	Chrome plated brass disc, disc made of ebonite and glass	76	1	Nos
77	77	Steam generator, steam chamber, glass beaker 250 mL	77	1	Nos
78	78	Lee disc stand with base plate	78	1	Nos
79	79	Thermometers (0 – 100 degC)	79	1	Nos
80	80	To determine the Moment of Inertia of a Flywheel. (Complete experimental setup with)	80
81	81	Flywheel with ball bearings	81	1	Nos
82	82	The bracket carrying the flywheel should be bolted to a vertical surface.	82	1	Nos
83	83	Weights (9*100 gm)	83	1	Nos
84	84	Stop watch	84	1	Nos
85	85	Others	85	1	Nos
86	86	To determine the Young's Modulus of a Wire by Optical Lever Method. (Complete experimental setup with)	86
87	87	Brass rod 1 mm	87	1	Nos
88	88	G clamps with sharp knife edges	88	1	Nos
89	89	Mirrors and holder	89	1	Nos
90	90	Slotted weights (500 gm)	90	1	Nos
91	91	Telescope	91	1	Nos
92	92	Cylindrical base	92	1	Nos
93	93	To determine the Modulus of Rigidity of a Wire by Maxwell’s needle. (Complete experimental setup with)	93
94	94	Hollow cylindrical brass tube of length 40 cm.	94	1	Nos
95	95	Maxwell’s needle, wall bracket, wire	95	1	Nos
96	96	Digital Weighing balance	96	1	Nos
97	97	To determine the elastic constant by Searle’s method (Complete experimental setup with)	97
98	98	SS rectangular bar each of length 30 cm – 2 nos	98	1	Nos
99	99	Vernier calliper, material : stainless steel, jaw depth 16 mm	99	1	Nos
100	100	Range: 0-150mm,least count – 0.01 mm	100	1	Nos
101	101	Screw guage	101	1	Nos
102	102	Stand for Searle’s experiment	102	1	Nos
103	103	To determine g by Bar Pendulum (Complete experimental setup with)	103
104	104	Brass bar 1003.750.5 square cm	104	1	Nos
105	105	Drilled with 19 holes at equal distance of 5 cm	105	1	Nos
106	106	Wall bracket	106	1	Nos
107	107	To study the Motion of a Spring and calculate (a) Spring Constant, (b) g. (Complete experimental setup with)	107
108	108	Adjustable scale on a stand of 37.5 cm	108	1	Nos
109	109	Helical springs with pointer	109	1	Nos
110	110	Hangers of 20 g weights	110	1	Nos
111	111	To compare capacitances using De’Sauty’s bridge (Complete experimental setup with)	111
112	112	Decade resistance 10, 100 and 1000 ohm 2 from each	112	1	Nos
113	113	Capacitor ( 0.1 microF, 0.2 microF) 2 from each	113	1	Nos
114	114	AC power supply of 10 kHz	114	1	Nos
115	115	Null detector (digital)	115	1	Nos
116	116	Components are mounted on a board with circuit and symbol	116	1	Nos
117	117	With banana patch cord	117	1	Nos
118	118	To study the Characteristics of a Series RC Circuit. (Complete experimental setup with)	118
119	119	DC power supply (0-12 V)	119	1	Nos
120	120	Voltmeter (0-12 V)	120	1	Nos
121	121	Galvanometer (1-0-1) (moving coil) 10 from each set	121	1	Nos
122	122	Resistance (10 Kohm,15Kohm, 18 Kohm)	122	1	Nos
123	123	Capacitors (1000 microF, 2200 microF, 4700 microF) 10 from each set	123	1	Nos
124	124	Toggle switch 2 ways	124	1	Nos
125	125	Dump switch	125	1	Nos
126	126	To study a series LCR circuit LCR circuit and determine its a. Resonant frequency b. Quality factor (Complete experimental setup with)	126
127	127	DC voltmeter (0 -5 V)	127	1	Nos
128	128	DC ammeter (0-25 mA)	128	1	Nos
129	129	Resistance (100 ohm, 150 ohm, 220 ohm)	129	1	Nos
130	130	Capacitors (0.1 microF, 0.2 microF, 0.3 microF)	130	1	Nos
131	131	Inductance (50 mH)	131	1	Nos
132	132	Signals generators	132	1	Nos
133	133	To determine a Low Resistance by Carey Foster’s Bridge. (Complete experimental setup with)	133
134	134	DC supply (1.5 V,250mA)	134	1	Nos
135	135	Decade resistance box (0.1 ohm to 10 ohm)	135	1	Nos
136	136	Galvanometer (30-0-30)	136	1	Nos
137	137	Resistance (10 ohm)	137	1	Nos
138	138	Carry foster bridge with jocky	138	1	Nos
139	139	To determine the frequency of a electrically maintained tunig fork by Melde’s experiment and to verify ?2– T Law. (Complete experimental setup with)	139
140	140	Heavy steel fork	140	1	Nos
141	141	Heavy cast iron base	141	1	Nos
142	142	Electromagnet	142	1	Nos
143	143	Weight box	143	1	Nos
144	144	Voltage source (1.5 V to 12 Volt, 3 A)	144	1	Nos
145	145	Pulley with clamp.	145	1	Nos
146	146	Reel of thread and pan.	146	1	Nos
147	147	To determine the Coefficient of Viscosity of water by Capillary Flow Method (Poiseuille’s method) (Complete experimental setup with)	147
148	148	Constant water level reservoir	148	1	Nos
149	149	Rubber tube	149	1	Nos
150	150	Thermometer	150	1	Nos
151	151	Pinch Cock	151	1	Nos
152	152	Graduated cylinder	152	1	Nos
153	153	Manometer with wooden stand	153	1	Nos
154	154	Glass capillary tube	154	1	Nos
155	155	Travelling microscope	155	1	Nos
156	156	a) To verify and design AND, OR, NOT and XOR gates using NAND gates.) (Complete experimental setup with)	156
157	157	Trainer consisting of solder-less bread-board having 1680 tie points i.e, provided with 2 terminal strips and 4 strips.	157	1	Nos
158	158	b) To minimize a given logic circuit. (Complete experimental setup with)	158
159	159	DC power supply. 5 Volt/1 A, +-12 Volt/500 mA.	159	1	Nos
160	160	LED indicator.	160	1	Nos
161	161	c) Half adder, Full adder and 4-bit Binary Adder (Complete experimental setup with)	161
162	162	Clock generator of 1 Hz, 10 Hz, 100 Hz, 1 kHz.	162	1	Nos
163	163	c) Adder-Subtractor using Full Adder I.C. (Complete experimental setup with)	163
164	164	Seven segment display with Decoder IC 7447 with user manual	164	1	Nos
165	165	c) To design an astable and monostable multivibrator of given specifications using 555 Timer (Complete experimental setup with)	165
166	166	DC power supply 5V, IC- NE555	166	1	Nos
167	167	Led indicator	167	1	Nos
168	168	Resistor 100kohm	168	1	Nos
169	169	Resistor 10 kohm	169	1	Nos
170	170	Resistor 1kohm	170	1	Nos
171	171	Capacitor (1 microF, 0.1 microF, 0.01 microF, 10 microF 10 from each value	171	1	Nos
172	172	Variable resistor (5 kohm)	172	1	Nos
173	173	To determine work function of material of filament of directly heated vacuum diode (Complete experimental setup with)	173
174	174	DC power supply (0- 250 V) Vacuum diode	174	1	Nos
175	175	DC voltmeter (0-150V) (0-6V)	175	1	Nos
176	176	DC ammeter (0-600 mA) (0-30mA)	176	1	Nos
177	177	Vacuum diode EZ80	177	1	Nos
178	178	Variable pot	178	1	Nos
179	179	To determine value of Planck’s constant using LEDs of at least 4 different colours (Complete experimental setup with)	179
180	180	DC supply (0-5V)(150mA)	180	1	Nos
181	181	DC voltmeter (0-5 V)	181	1	Nos
182	182	Ammeter (0 – 2000 micro A)	182	1	Nos
183	183	RED (630nM), yellow (578 nM), blue (436 nM), green (546 nM)	183	1	Nos
184	184	To determine the ionization potential of mercury. (Complete experimental setup with)	184
185	185	DC power supply (0-3 V) (50mA)	185	1	Nos
186	186	AC power supply 6.3 V to 0 V to 25 V, 500mA	186	1	Nos
187	187	DC voltmeter (0-30V)	187	1	Nos
188	188	DC ammeter (0-30mA)	188	1	Nos
189	189	others	189	1	Nos

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