Department of Higher Education has published Supply Of Laboratory Equipment And Supply Of Computer And Computer Accessories. Submission Date for this Tender is 24-12-2019. Bottles Tenders in Muralidhar Girls College West Bengal. Bidders can get complete Tender details and download the document.
| 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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