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Experiments
Atomic Spectra Experiment
OBJECTIVES
- To understand the concept of diffraction of light.
- To measure and analyze the emission spectral lines of different elements.
PRINCIPLE
The source of electromagnetic radiation is atoms. When the atoms of an element are in an excited state, they return to a lower energy state by emitting electromagnetic (EM) radiation. The transition of the electrons in the atom from a higher energy level to lower unique energy levels for the occupation of electrons, due to this the EM spectrum emitted is a unique signature of an element or a substance. The study of the characteristics of EM radiation emitted by atoms is called Atomic Emission Spectroscopy.
KEY FEATURES
- Precise Optical Alignment: The optical alignment of the components is attained by the optical bench, the set-up time is faster and experimentation is easy.
- Rotating table with On-board Telescope: The telescope on the rotating table is mounted with bearings for smooth rotation. The diffraction grating mounted is mounted at the center of the rotating table. The telescope is easy to focus on and operate. The angle of the rotating arm has a least count of 0.1° for accurate measurement of the spectral lines.
- Power Supply Built in the Discharge Tube Holder: The built-in power supply makes a more compact system with easier changing of the discharge tubes. Easy power connection and no unnecessary wire intrusions
WHAT YOU NEED
- OB1 Optical Bench Set 0.8m 1
- HA010 Converging Lens Holder 1
- HA012 Adjustable Collimating Slit Holder 1
- UP040 Spectrum Tube Power Supply Assembly 1
- UP035 Telescope Assembly 1
- AC018 Diffraction Grating 1
- AC021 Spectrum Tube, Hydrogen 1
- AC022 Spectrum Tube, Helium 1
- AC023 Spectrum Tube, Mercury 1
- AC024 Spectrum Tube, Krypton 1
- AC025 Spectrum Tube, Argon 1
Complete Equipment Set with Instruction Manual from catalogue.
ASE1-C -
Experiments
Brewster Angle Experiment
OBJECTIVES
Measurement of Brewster’s angle for a given dielectric dispersive medium.
PRINCIPLE
When un-polarized light is incident on the surface of a dielectric (such as a glass), at a certain angle of incidence the reflected light is completely plane-polarized. This phenomenon was discovered by Sir David Brewster and, thus, the specific angle is called Brewster’s angle or polarization angle. Also, from the experiment, it can be confirmed that the reflected ray and the refracted ray are 90° apart when the incident angle is set at Brewster’s angle.
KEY FEATURES
- Rotating Table: A simple, smooth, and compact rotating table. The rotating table used is extremely smooth to operate. It is a single assembly that holds a glass sample, analyzer, and light sensor, thus minimizing the size of the whole equipment. Smooth rotation makes measurement continuous and accurate.
- Light Sensor: This enables the measurement of light intensity at various angles of reflection. The meter reads with a precision of 1 lux. The Lux meter helps obtain a continuous smooth curve of angle vs intensity and determines the Brewster angle much more accurately than the manual method.
WHAT YOU NEED
- OB1 Optical Bench Set 0.8m 1
- HA001 Light Source Holder 1
- HA010 Converging Lense Holder
- HA012 Adjustable Collimating Slit Holder 1
- UP030 Rotating Table Assembly 1
- AC002 Analyzer Square 1
- HA511 Light Sensor Holder 1
- PH61022D/2 Power Supply for Light Source 1
- AC004 Glass Block 1
- DP1 Data Processor 1
Complete Equipment Set with Instruction Manual from catalogue.
BAE1-C -
Experiments
Biot-Savart’s Law Experiment
OBJECTIVES
- Measuring the magnetic field of a straight conductor and of circular conductor loops as a function of the current.
- Measuring the magnetic field of a straight conductor as a function of the distance from the axis of the conductor.
- Measuring the magnetic field of circular conductor loops as a function of the loop radius and the distance from the loop.
PRINCIPLE
Electric currents generate magnetic fields. Biot–Savart law is an equation describing the magnetic field generated by a constant electric current. It relates the magnetic field to the magnitude, direction, length, and proximity of the electric current. In this experiment, we study the magnetic field characteristics in the straight conductors and different types of circular coils.KEY FEATURES
- Multiple coil variants: The equipment comprises a variety of coils to carry out experiments. One can study Biot Savant law for a straight conductor, coils of variable length, density, and a number of turns. All coils are mounted on a common horizontal bench and upright system.
- 2-axis Teslameter: The equipment is provided with a teslameter with probes to measure both axial and tangential directions. A square shaft mount is provided for the accurate mounting of the probes.
WHAT YOU NEED
- OB2 Optical Bench Set 0.4m 1
- HA015 Solenoid with Variable Turns 1
- HA016 Solenoid with Variable Lengths 1
- HA017 Solenoid with Different Winding Density (Set) 1
- HA018 Straight Conductor Holder 1
- PH93240 Teslameter, With Axial and Tangential Hall Probe 1
- PH61035D/5 Power Supply 1
Complete Equipment Set with Instruction Manual from catalogue.
BSL1-C
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Filtering Apparatus
Spares for All Glass Filter Holder – 47mm, Filtration Assembly
- Made of borosilicate 3.3 glass with fritted glass filter base
- Anodised aluminium spring clamp
- The filter size is 47mm
- Used for filtration of HPLC solvents and aqueous mobile phase solutions and buffers
- The scaled funnels simplify dosing and analysis
18.147 -
Bottles
Bottles, Reagent Interchangeable Glass/PP Stopper, Narrow Mouth, Clear
In conformity to DIN ISO 4796-2 Standard. Printed in white color.
- These narrow-mouth reagent storage bottles have a sturdy ground neck.
- All sizes have an enameled area for marking.
- These bottles are strong and chemical resistant.
- Supplied with solid glass stopper and PP stoppers as per requirement.
12.101