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| 1 | Name Instrument |
| 2 | Alumina Crucible with Lid |
| 3 | Quartz Crucible with Lid |
| 4 | Agate Pestle Mortar |
| 5 | Spatula |
| 6 | Thermometer |
| 7 | Whatman Filter Paper |
| 8 | Fixed angle Clamp with stand |
| 9 | Butter Paper |
| 10 | Magnetism Lab Trainer It should have following Technical Specifications: Types of material of magnet:1. Alnico2. Ceramic or ferrite3. Rare earth magnet (Neodymium)Shapes of Magnet: Bar Magnet U-Shape MagnetHorse shoe Magnet Cylindrical Magnet Ring Magnet Disc MagnetMagnetic CompassMagnetic Field Demostrator Lenz's Law Demonstrator Motor Assembly Coil:No. of Turns : 400Inductance (approx.) : 2.3mH Max. Current : 0.728 AIt should perform following experiments: Plotting of the combined magnetic field of the earth and a bar magnet and to locate the neutral points. Calculation of the magnetic moment and the pole strength of the magnet Study of magnetic field lines by Magnetic Field Demonstrator Study of magnetic levitation by Floating Ring MagnetsStudy of Oersted Law Study of Faraday's Law of Electromagnetic Induction Study of Lenz's Law Study of Electromagnet Study of the principle of motor by a simple assembly of motor |
| 11 | To study the LCR circuits.It should have following features:• LCD Voltmeter and Frequency Counter• Inbuilt Signal Generator• Low cost Board demonstrating both Series and ParallelResonance on the same board• Experiments can be performed with or without Oscilloscope• Inbuilt Power Supply• Online product tutorialIt should have following Technical Specifications:Mains Supply : 90 - 275V, 50/60HzGenerator Output : 8VppFrequency Ranges : 1KHz, 10KHz, 60KHzVoltmeter : 2VOptionalOscilloscope Scientech 800It should perform following experiments:• Study of Series R-L-C Resonance and to determine its Resonance Frequency• Study of Parallel R-L-C Resonance and to determine its Resonance Frequency. |
| 12 | Determine Planck's Constant using LEDIt should have following features:• LCD for current and voltage• Variable Power Supply (0-5Volt)• Online product tutorials and manual should be available to perform lab experiments by following step-by-step experimental procedureIt should have following Technical Specifications:Mains: 230V , 50 HzFuse: 0.5ADC Power Supply: 0 - 5VLEDType: Super brightSize: 5 mmColours: Blue, Green, Orange, RedDC Voltmeter:Type: LCDDisplay: 3½ digitRange: 200 mV - 200 VDC AmmeterType: LCDDisplay: 3½ digitRange: 2μA - 200 mAIt should perform following experiments:• Determination of Planck's Constant using Light Emitting Diode (LED).• Draw the I-V characteristic for Light Emitting Diode (LED) and hence determine the Threshold Voltage.• Determination of Planck's Constant by plotting curve between Threshold Voltage and Wavelength of LEDs. |
| 13 | To determine various parameters using Four Probe Set UpIt should have following features:• A complete setup for measurement of Resistivity & Band gap• Four individually spring loaded probe arrangement is provided• Collinear and equally spaced probe• The probes are mounted in a Teflon bush, which ensure a good electrical insulation between the probes• Germanium crystal in the form of a chip is provided• Oven arrangement with safety precaution• Provision for low and high rates of heating• Online product tutorials and manual should be available to perform lab experiments by following step-by-step experimental procedureIt should have following Technical Specifications: Four probeContacts with sample: Spring Loaded Space between probes: 2 mm ±2% Probes: Collinear SampleMaterial: Germanium crystalType: n-typeThickness: 0.50 mmOvenMaximum Temperature: Room Temperature to 200°C (max) Heater Resistance: 37ohms (approx.)Maximum heater Voltage: 45 VMeasurement UnitDigital Voltage measurement:Display: 3½ digit, with auto polarityRange: X1(0 - 200 mV) and X 10(0 - 2 V)Resolution: 100 mV at X1 rangeConstant Current Generator:Current Range : 0 to 20 mAResolution: 1 mAAccuracy: ±0.25 % or ±1 digit Open Circuit Voltage: 18 VOven Power Supply:Input: 230 V AC ± 10%Heating Options:a) Low : 40 V ACb) High: 45 V ACTemperature Measurement:Mercury Thermometer Range: 0 -150 °It should perform following experiments:• Determination of Resistivity and Band Gap of Semiconductors by Four Probe Method at different temperatures. |
| 14 | Seebeck It should have following features:• High Seebeck Coefficient of thermoelectric module• Micro-controller based measurement• Digital display of temperature of hot and cold side• Provided with PC based measurement and calculation• Online product tutorials and manual should be available to perform lab experiments by following step-by-step experimental procedureIt should be able to perform following experiments:Display: LCD (16 x 2)Temperature: Range: 0 - 150°C Resolution: 0.1°CVoltage: Range: 0 – 2000 mV Resolution: 0.1 mVGlass Beaker: 250 mlFan: 3 VSupply:Adaptor Input: 220-240 V, 50 / 60 Hz Adaptor Output: 5 V, 1 AIt should be able to perform following experiments:• To study the Seebeck Effect• To Study the Peltier Effect• Understanding conversion of energy from one form to another• Application of thermal energy• To plot graph between thermo emf generated v/s temperature difference.• Calculation of Seebeck Coefficient. |
| 15 | Electrostatics Lab TrainerIt should have following features:• Complete training system to study the fundamentals of Electrostatics• Electrostatic charging by Induction, Conduction, Friction• Digital Electroscope consists of Charge Polarity Indicator & Display• Accessories are provided in a good quality carrying case with foam inserts• Online product tutorials and manual should be available to perform lab experiments by following step-by-step experimental procedure.It should have following Technical Specifications:Electroscope Display: Measures relative intensity of charge in millivolts Charge Polarity Indicators: Blue LED - Negative charge, Green LED - Positive chargeRods: Teflon, Ebonite, PerspexCloths: Silk, Cotton, WoolenPith balls (with pendulum): Single & pair is provided fordifferent observationsPower Supply: 230 V ± 10 %, 50 HzIt should perform following experiments:• To study the Charge Induction in Electrostatics• To study the Charge Conduction in Electrostatics• To study the Pith ball pendulum Electroscope• To study the relative charges of different rods with the help of Digital Display in milli volts• To study the Electrostatic Charge with the help of Charge Demonstration Tube• To study the Electrostatic Charge by the combination of different rods & cloths |
| 16 | Study of V-I characteristics of diodes.It should have following features:• A complete system to study the diode characteristics• Forward and reverse characteristics experiment canbe performed on this trainer kit• Silicon, Germanium, Zener and Light Emitting Diode(LED) are provided with this system• Inbuilt Ammeter and Voltmeter are provided• Digital display for displaying voltage and current• Different test points are provided• Online product tutorialIt should have following Technical Specifications:On Board DC power supply: +12V DCAmmeterRange : 1µA to 200mADisplay : 3½ digitVoltmeterRange : 1mV to 200VDisplay : 3½ digitMains power : 230V AC ±10%Dimension (mm) : W 365 x D 260 x H 120It should perform following experiments:• Study of V-I characteristics of Silicon Diode• Study of V-I characteristics of Germanium Diode• Study of V-I characteristics of Zener Diode• Study of V-I characteristics of Light Emitting Diode (LED) |
| 17 | To assemble and verify the truth tables of OR, NOR, AND, NAND-Logic GatesIt should have following features:• Exclusive and compact design• Straight forward representation of all logic gates• +5V SMPS Adaptor provided with the trainer for powersupply• Designed by considering all the safety standards• Online product tutorial• Low cost product including illustration of all logic gatesIt should have following Technical Specifications:Input : +5V DCLogic levels+5V : HIGH ( Logic 1 )0V : LOW ( Logic 0 )Dimensions (mm) : W 240 x D 345 x H 110Weight : 1 KgIt should perform following experiments:• Study of AND gate and to verify its truth table• Study of OR gate and to verify its truth table• Study of NOT gate and to verify its truth table• Study of NAND gate and to verify its truth table• Study of NOR gate and to verify its truth table• Study of XOR gate and to verify its truth table• Study of XNOR gate and to verify its truth table |
| 18 | Simple and Compound PendulumIt should have following features:• Digital Stop watch• Self-contained setup• Simple and Compound pendulum• Online product tutorialIt should have following Technical Specifications:Bar RodLength : 1mBreadth : 4.3cmWidth : 0.7cmNumber of holes : 19Distance between holes : 5cmDiameter of holes : 1cmDiameter of bob : 2.47cmHeight of Hook : 1.1cmMeasurement unitAdaptor input : 100-240V, 0.2A, 50 / 60HzAdaptor output : 5VIt should perform following experiments:• To determine the acceleration due to gravity by object drop method• To determine the acceleration due to gravity by Simple Pendulum• To determine the acceleration due to gravity with the help of Compound Pendulum• To determine the radius of gyration and moment of inertia of a Compound Pendulum about its centre of gravity |
| 19 | Hydraulic Press Machine Manual Operated, with Hydraulic Laboratory Pellet Press Accessories, Die Set Pellet (DDD SS Dia 10 mm) |
| 20 | Muffle furnace with programmable PID temperature controller |
| 21 | Magnetic Stirrer with Temprature Indicator, Magnetic Bid for stirring 5 mm, 10 mm, 15 mm diameter (Qty-5 each size), cylindrical shape |
| 22 | Infrared Light Heat Lamp |
| 23 | Stop Watch |
| 24 | Vernier Caliper |
| 25 | Screw Gauge |
| 26 | Spherometer |
| 27 | Benchtop pH Meter |
| 28 | Analytical Balance Please Enable Macros to View BoQ information |
