Department of Higher Education has published Tender For 149/Pgc/T-11/2022. Submission Date for this Tender is 11-11-2022. Coats and Jackets Tenders in pedong West Bengal. Bidders can get complete Tender details and download the document.
| Sl. No. | Item Description |
| 1 | Chemistry : Borosilicate Glass Burette 50 ml (PTFE stopcocks) |
| 2 | Borosilicate Glass Pipette 25ml |
| 3 | Pipette filler for up to 25ml pipettes |
| 4 | Stalagmometer |
| 5 | Clamp for stalagmometer |
| 6 | Ostwald viscometer |
| 7 | Digital pH Meter with electrode |
| 8 | Litmus Paper |
| 9 | Electrically heated melting point apparatus |
| 10 | Boiling point apparatus |
| 11 | Paper chromatography - papers |
| 12 | Thin layer chromatography plates |
| 13 | Calorimeter |
| 14 | Rubber pipe for distillation water flow |
| 15 | Glass condenser |
| 16 | Magnetic Stirrer |
| 17 | Heating Mantle |
| 18 | Condenser (Normal) |
| 19 | Condenser (Spiral) |
| 20 | Water bath |
| 21 | Bottle Shaker |
| 22 | Watch Glass |
| 23 | Conductivity meter with electrode |
| 24 | Beaker 25 ml |
| 25 | Beaker 50 ml |
| 26 | Beaker 100 ml |
| 27 | Beaker 250 ml |
| 28 | Beaker 500 ml |
| 29 | Round-bottom flask 25 ml |
| 30 | Round-bottom flask 50 ml |
| 31 | Round-bottom flask 100 ml |
| 32 | Round-bottom flask 250 ml |
| 33 | Parafilm |
| 34 | Digital Conductivity Meter with electrode |
| 35 | Digital Potentiometer with electrode |
| 36 | UV Chamber |
| 37 | Capillary Tube |
| 38 | UV-Visible Spectrometer |
| 39 | Test Tube |
| 40 | Test Tube Holder |
| 41 | Column (20mm) |
| 42 | Chemicals : Ethanol 500 mL |
| 43 | Sucrose |
| 44 | Glucose |
| 45 | Sodium acetate |
| 46 | Ammonium hydroxide |
| 47 | Acetic Acid (2.5 litters) |
| 48 | Hydrochloric Acid (2.5 litters) |
| 49 | Sulfuric Acid (2.5 litters) |
| 50 | KMnO4 |
| 51 | FeCl2 |
| 52 | Oxalic acid |
| 53 | Sodium Oxalate |
| 54 | K2Cr2O7 |
| 55 | Diphenylamine |
| 56 | Anthranilic acid |
| 57 | o-Nitrophenol |
| 58 | p-Nitrophenol |
| 59 | CuSO4 |
| 60 | Benzoic acid |
| 61 | Chloroform 500 ml |
| 62 | Pyridine |
| 63 | Sodium nitrite |
| 64 | Phthalic anhydride |
| 65 | CCl4 500 ml |
| 66 | Copper powder |
| 67 | NH4OH |
| 68 | CaCl2 |
| 69 | KI |
| 70 | KIO3 |
| 71 | Tollen’s reagent |
| 72 | Fehling’s solution 1 |
| 73 | Fehling’s solution 2 |
| 74 | NaHSO3 |
| 75 | 2,4-DNP |
| 76 | KOH |
| 77 | NaOH |
| 78 | NaNO2 |
| 79 | Zn dust |
| 80 | NH4Cl |
| 81 | Cinnamaldehyde |
| 82 | Vanillin |
| 83 | Citric acid |
| 84 | Resorchinol |
| 85 | Benzaldehyde |
| 86 | Butanol 500 ml |
| 87 | Acetic anhydride 500 ml |
| 88 | Iodine |
| 89 | CuCl2 |
| 90 | Cu (NO3)2 |
| 91 | Cu (CH3COO)2 |
| 92 | Cu (ClO4)2.6H2O |
| 93 | Bleaching powder |
| 94 | Calcium Sulphite |
| 95 | Calcium Sulphate |
| 96 | Calcium oxide |
| 97 | Calcium Chloride |
| 98 | Calcium Carbonate |
| 99 | Calcium perchlorate |
| 100 | Calcium Phosphate |
| 101 | Iron (III) Oxide |
| 102 | Iron (III) Sulphide |
| 103 | FeCl3 |
| 104 | CrCl3 |
| 105 | Zinc perchlorate |
| 106 | Cobalt perchlorate |
| 107 | Nickel perchlorate |
| 108 | Ammonium sulphate fertilizer |
| 109 | Calcium ammonium nitrate fertilizer |
| 110 | Superphosphate fertilizer |
| 111 | CoNO3 |
| 112 | Chloramin-T |
| 113 | Sodium nitroprusside |
| 114 | Lead acetate |
| 115 | AgNO3 |
| 116 | NH4OH |
| 117 | AlCl3 |
| 118 | Al (OH)3 |
| 119 | NiCl2 |
| 120 | FeCl2 |
| 121 | MnCl2 |
| 122 | CoCl2 |
| 123 | Co (CH3COO)2 |
| 124 | Fe (CH3COO)2 |
| 125 | Ni (CH3COO)2 |
| 126 | Ni (NO3)2 |
| 127 | Zn (NO3)2 |
| 128 | Fe (NO3)2 |
| 129 | Mn (NO3)2 |
| 130 | NH3 |
| 131 | 1-Bromobutane |
| 132 | Iodobenzene |
| 133 | Bromobenzene |
| 134 | Chlorobenzene |
| 135 | Benzene sulphonic acid |
| 136 | Salicylic acid |
| 137 | Cinnamic acid |
| 138 | 4-Nitrophenol |
| 139 | Methanol (2.5 litters) |
| 140 | Acetonitrile (2.5 litters) |
| 141 | Acetone (2.5 litters) |
| 142 | Physics : To study the Motion of Spring and calculate, (a) Spring constant, (b) g and (c) Modulus of rigidity. |
| 143 | To determine g and velocity for a freely falling body using Digital Timing Technique |
| 144 | To determine the elastic Constants(all) of a wire by Searle’s method. |
| 145 | To determine the value of g using Bar Pendulum. |
| 146 | To determine the wavelength of sodium source using Michelson’s interferometer. |
| 147 | Direct measurement using Op-Amp difference amplifier and to determine Neutral Temperature |
| 148 | Measurement of Planck’s constant using black body radiation and photo-detector |
| 149 | Photo-electric effect: photo current versus intensity and wavelength of light; maximum energy of |
| 150 | photo-electrons versus frequency of light |
| 151 | To determine work function of material of filament of directly heated vacuum diode. |
| 152 | To determine the Planck’s constant using LEDs of at least 4 different colours. |
| 153 | To determine the wavelength of H-alpha emission line of Hydrogen atom. |
| 154 | To determine the ionization potential of mercury. |
| 155 | To determine the absorption lines in the rotational spectrum of Iodine vapour. |
| 156 | To determine the value of e/m by (a) Magnetic focusing or (b) Bar magnet. |
| 157 | To setup the Millikan oil drop apparatus and determine the charge of an electron. |
| 158 | To show the tunneling effect in tunnel diode using I-V characteristics. |
| 159 | To determine the wavelength of laser source using diffraction of single slit. |
| 160 | To determine the wavelength of laser source using diffraction of double slits. |
| 161 | Study of V-I & power curves of solar cells, and find maximum power point & efficiency. |
| 162 | To design a circuit to simulate the solution of a 1st/2nd order differential equation. |
| 163 | Study of Electron spin resonance- determine magnetic field as a function of the resonance frequency |
| 164 | Study of Zeeman effect: with external magnetic field; Hyperfine splitting |
| 165 | To show the tunneling effect in tunnel diode using I-V characteristics. |
| 166 | Quantum efficiency of CCDs |
| 167 | To measure the Magnetic susceptibility of Solids. |
| 168 | To determine the Coupling Coefficient of a Piezoelectric crystal. |
| 169 | To measure the Dielectric Constant of a dielectric Materials with frequency |
| 170 | To determine the complex dielectric constant and plasma frequency of metal using Surface Plasmon |
| 171 | resonance (SPR) |
| 172 | To determine the refractive index of a dielectric layer using SPR |
| 173 | To study the PE Hysteresis loop of a Ferroelectric Crystal. |
| 174 | To measure the resistivity of a semiconductor (Ge) with temperature by four-probe method (room temperature to 1500 C) and to determine its band gap. |
| 175 | To determine the Hall coefficient of a semiconductor sample. |
| 176 | To verify the law of Malus for plane polarized light. |
| 177 | To analyze elliptically polarized Light by using a Babinet’s compensator. |
| 178 | To study dependence of radiation on angle for a simple Dipole antenna. |
| 179 | To determine the wavelength and velocity of ultrasonic waves in a liquid (Kerosene Oil, Xylene, etc.) |
| 180 | by studying the diffraction through ultrasonic grating. |
| 181 | To study the reflection, refraction of microwaves |
| 182 | To study Polarization and double slit interference in microwaves. |
| 183 | To determine the refractive Index of (1) glass and (2) a liquid by total internal reflection using a Gaussian eyepiece. |
| 184 | To study the polarization of light by reflection and determine the polarizing angle for air-glass interface. |
| 185 | To verify the Stefan`s law of radiation and to determine Stefan’s constant. |
| 186 | To determine the Boltzmann constant using V-I characteristics of PN junction diode. |
| 187 | Synthesis of metal nano particles by chemical route. |
| 188 | Synthesis of semiconductor nanoparticles. |
| 189 | Surface Plasmon study of metal nanoparticles by UV-Visible spectrophotometer. |
| 190 | XRD pattern of nanomaterials and estimation of particle size. |
| 191 | To study the effect of size on color of nanomaterials. |
| 192 | To prepare composite of CNTs with other materials. |
| 193 | Growth of quantum dots by thermal evaporation. |
| 194 | Prepare a disc of ceramic of a compound using ball milling, pressing and sintering, and study its XRD. |
| 195 | Fabricate a thin film of nanoparticles by spin coating (or chemical route) and study transmittance spectra in UV-Visible region. |
| 196 | Prepare a thin film capacitor and measure capacitance as a function of temperature or frequency. |
| 197 | Fabricate a PN diode by diffusing Al over the surface of N-type Si and study its V-I characteristic. |
| 198 | Measurement of distortion of a RF signal generator using distortion factor meter. |
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