Supply Of Laboratory Equipment And Supply Of Computer And Computer Accessories
Tender Overview
Project Description
Supply Of Laboratory Equipment And Supply Of Computer And Computer Accessories:-1 Computer & Accessories 2 Pc Less Projector With Screen 3 Projector Screen ( 6’ X 4’ ) With Stand 4 Laptop 5 Desktop With Apc 600 Va Ups 6 Printer 7 Laser Printer 8 Journalism 9 Sony: Cx470 Handycam® With Exmor R® Cmos Sensor 10 Psychology 11 Pneumograph 12 Wais Ii 13 Rescorder 14 16 P.F. 15 Film Studies 16 Wall Mount Screen 17 Dslr 18 C10 Cards 64 Gb 19 Tripod 20 Artificial Light 21 External Microphone 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 23 Geography 24 Theodolite ( 20’’ Vernier ) With All Accessories 25 Fortin’S Barometer 26 Refractometer : For Salinity Measurement 27 Glass Dropper 28 Battery Operated Portable Digital Ph Meter With Electrode : Approx Size 125Mm75mm25mm 29 Distilled Water 5 Litres Jar 30 Buffer Capsule Of Ph Value 7, 4 And 9.2 31 Hot Air Oven With Temperature Control 32 Digital Weighing Machine Of 0.001 Gm To 200 Gm Measurement Capability 33 Mechanical Stirrer With Rpm Meter 34 Stainless Steel Spatula 6 Meters Long 35 Mortar Pestle ( Wooden / Porcelain ) 36 Borosilicate Glassware-Petridish 7Cm Diameter 37 Beaker Of 250 Ml 38 Conical Flask Of 250 Ml 39 Glass Funnel Of 7.5 Cm Diameter 40 Whatmann Filter Paper Of 11 Cm Diameter 41 Reagent Glass Bottle With Glass Cap Of 250 Ml 42 Graduated Pipette Of 25 Ml 43 Plastic Zip Lock Pouch 44 Measuring Cylinder Of 100 Ml 45 Iron Wire Net With Wooden Frame For Determination For Plant Species Diversity 1Mx1m Wooden Frame With 2 Mmx2mm Iron Wire Net 46 Gnss Receiver ( Etrex 10 ) 47 Rain Gauge 48 Laser Distance Measurer 49 Physics 50 To Determine Mechanical Equivalent Of Heat, J, By Callender And Barne’S Constant Flow Method ( Complete Experimental Setup With ) 51 Calendar And Barn’S Continuous Flow Calorimeter. 52 Ac Ammeter ( 0-3 A ) . 53 Ac Voltmeter ( 0-10V ) . 54 Thermometers ( 0-100 Degc ) 55 Measuring Cylinder ( 0-100 Mg ) 56 Dc Supply ( 2-12 V And 3A ) 57 Three Flow Water Containing Beaker. 58 Rubber Tubing 59 Stop Watch 60 To Determine Stefan’S Constant ( Complete Experimental Setup With ) 61 Dc Power Supply 12V / 250 Ma 62 Dc Voltmeter 0- 12 V 63 Dc Ammeter 0 – 250 Ma 64 Dc Bulb 12 V 65 Components Are Mounted On A Board 66 Mains 220 V 50 Hz 67 Circuit & Symbol Diagram Are Printed On The Front Panel. 68 To Determine The Coefficient Of Thermal Conductivity Of Cu By Searle’S Apparatus. ( Complete Experimental Setup With ) 69 Searle’S Thermal Conductivity Apparatus 70 Thermometers ( 1- 50 Degc ) 71 Constant Level Tank 72 Rubber Tubing And Measuring Flask. 73 To Determine The Coefficient Of Thermal Conductivity Of A Bad Conductor By Lee And Charlton’S Disc Method ( Complete Experimental Setup With ) 74 Hollow Metal Box 75 Ms Chrome Plated Rod, Thread Reel, Ms Painted Base 76 Chrome Plated Brass Disc, Disc Made Of Ebonite And Glass 77 Steam Generator, Steam Chamber, Glass Beaker 250 Ml 78 Lee Disc Stand With Base Plate 79 Thermometers ( 0 – 100 Degc ) 80 To Determine The Moment Of Inertia Of A Flywheel. ( Complete Experimental Setup With ) 81 Flywheel With Ball Bearings 82 The Bracket Carrying The Flywheel Should Be Bolted To A Vertical Surface. 83 Weights ( 9*100 Gm ) 84 Stop Watch 85 Others 86 To Determine The Youngs Modulus Of A Wire By Optical Lever Method. ( Complete Experimental Setup With ) 87 Brass Rod 1 Mm 88 G Clamps With Sharp Knife Edges 89 Mirrors And Holder 90 Slotted Weights ( 500 Gm ) 91 Telescope 92 Cylindrical Base 93 To Determine The Modulus Of Rigidity Of A Wire By Maxwell’S Needle. ( Complete Experimental Setup With ) 94 Hollow Cylindrical Brass Tube Of Length 40 Cm. 95 Maxwell’S Needle, Wall Bracket, Wire 96 Digital Weighing Balance 97 To Determine The Elastic Constant By Searle’S Method ( Complete Experimental Setup With ) 98 Ss Rectangular Bar Each Of Length 30 Cm – 2 Nos 99 Vernier Calliper, Material : Stainless Steel, Jaw Depth 16 Mm 100 Range: 0-150Mm, Least Count – 0.01 Mm 101 Screw Guage 102 Stand For Searle’S Experiment 103 To Determine G By Bar Pendulum ( Complete Experimental Setup With ) 104 Brass Bar 100*3.75*0.5 Square Cm 105 Drilled With 19 Holes At Equal Distance Of 5 Cm 106 Wall Bracket 107 To Study The Motion Of A Spring And Calculate ( A ) Spring Constant, ( B ) G. ( Complete Experimental Setup With ) 108 Adjustable Scale On A Stand Of 37.5 Cm 109 Helical Springs With Pointer 110 Hangers Of 20 G Weights 111 To Compare Capacitances Using De’Sauty’S Bridge ( Complete Experimental Setup With ) 112 Decade Resistance 10, 100 And 1000 Ohm 2 From Each 113 Capacitor ( 0.1 Microf, 0.2 Microf ) 2 From Each 114 Ac Power Supply Of 10 Khz 115 Null Detector ( Digital ) 116 Components Are Mounted On A Board With Circuit And Symbol 117 With Banana Patch Cord 118 To Study The Characteristics Of A Series Rc Circuit. ( Complete Experimental Setup With ) 119 Dc Power Supply ( 0-12 V ) 120 Voltmeter ( 0-12 V ) 121 Galvanometer ( 1-0-1 ) ( Moving Coil ) 10 From Each Set 122 Resistance ( 10 Kohm, 15Kohm, 18 Kohm ) 123 Capacitors ( 1000 Microf, 2200 Microf, 4700 Microf ) 10 From Each Set 124 Toggle Switch 2 Ways 125 Dump Switch 126 To Study A Series Lcr Circuit Lcr Circuit And Determine Its A. Resonant Frequency B. Quality Factor ( Complete Experimental Setup With ) 127 Dc Voltmeter ( 0 -5 V ) 128 Dc Ammeter ( 0-25 Ma ) 129 Resistance ( 100 Ohm, 150 Ohm, 220 Ohm ) 130 Capacitors ( 0.1 Microf, 0.2 Microf, 0.3 Microf ) 131 Inductance ( 50 Mh ) 132 Signals Generators 133 To Determine A Low Resistance By Carey Foster’S Bridge. ( Complete Experimental Setup With ) 134 Dc Supply ( 1.5 V, 250Ma ) 135 Decade Resistance Box ( 0.1 Ohm To 10 Ohm ) 136 Galvanometer ( 30-0-30 ) 137 Resistance ( 10 Ohm ) 138 Carry Foster Bridge With Jocky 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 ) 140 Heavy Steel Fork 141 Heavy Cast Iron Base 142 Electromagnet 143 Weight Box 144 Voltage Source ( 1.5 V To 12 Volt, 3 A ) 145 Pulley With Clamp. 146 Reel Of Thread And Pan. 147 To Determine The Coefficient Of Viscosity Of Water By Capillary Flow Method ( Poiseuille’S Method ) ( Complete Experimental Setup With ) 148 Constant Water Level Reservoir 149 Rubber Tube 150 Thermometer 151 Pinch Cock 152 Graduated Cylinder 153 Manometer With Wooden Stand 154 Glass Capillary Tube 155 Travelling Microscope 156 A ) To Verify And Design And, Or, Not And Xor Gates Using Nand Gates. ) ( Complete Experimental Setup With ) 157 Trainer Consisting Of Solder-Less Bread-Board Having 1680 Tie Points I.E, Provided With 2 Terminal Strips And 4 Strips. 158 B ) To Minimize A Given Logic Circuit. ( Complete Experimental Setup With ) 159 Dc Power Supply. 5 Volt / 1 A, +-12 Volt / 500 Ma. 160 Led Indicator. 161 C ) Half Adder, Full Adder And 4-Bit Binary Adder ( Complete Experimental Setup With ) 162 Clock Generator Of 1 Hz, 10 Hz, 100 Hz, 1 Khz. 163 C ) Adder-Subtractor Using Full Adder I.C. ( Complete Experimental Setup With ) 164 Seven Segment Display With Decoder Ic 7447 With User Manual 165 C ) To Design An Astable And Monostable Multivibrator Of Given Specifications Using 555 Timer ( Complete Experimental Setup With ) 166 Dc Power Supply 5V, Ic- Ne555 167 Led Indicator 168 Resistor 100Kohm 169 Resistor 10 Kohm 170 Resistor 1Kohm 171 Capacitor ( 1 Microf, 0.1 Microf, 0.01 Microf, 10 Microf 10 From Each Value 172 Variable Resistor ( 5 Kohm ) 173 To Determine Work Function Of Material Of Filament Of Directly Heated Vacuum Diode ( Complete Experimental Setup With ) 174 Dc Power Supply ( 0- 250 V ) Vacuum Diode 175 Dc Voltmeter ( 0-150V ) ( 0-6V ) 176 Dc Ammeter ( 0-600 Ma ) ( 0-30Ma ) 177 Vacuum Diode Ez80 178 Variable Pot 179 To Determine Value Of Planck’S Constant Using Leds Of At Least 4 Different Colours ( Complete Experimental Setup With ) 180 Dc Supply ( 0-5V ) ( 150Ma ) 181 Dc Voltmeter ( 0-5 V ) 182 Ammeter ( 0 – 2000 Micro A ) 183 Red ( 630Nm ) , Yellow ( 578 Nm ) , Blue ( 436 Nm ) , Green ( 546 Nm ) 184 To Determine The Ionization Potential Of Mercury. ( Complete Experimental Setup With ) 185 Dc Power Supply ( 0-3 V ) ( 50Ma ) 186 Ac Power Supply 6.3 V To 0 V To 25 V, 500Ma 187 Dc Voltmeter ( 0-30V ) 188 Dc Ammeter ( 0-30Ma )
BOQ
| 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 100*3.75*0.5 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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