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| Experiments Possible: |
► Verification of the magnetic moment constant Bohr magneton (μ0)
► Analysis of Plank’s constant (h) and speed of light (c) using Zeeman Effect. |
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A green DPSS laser is used in our equipment to execute and observe Raman peaks. PMT is used to detect even the weakest Raman signals. Combined with holographic grating, Raman Spectrometer is a perfect tool for every laboratory. |
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Experiment Possible: |
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| Determination of Verdet’s constant of the material for a given wavelength of light (Magneto Optic Effect) |
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Experiments Possible: |
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► Determination of wavelength of laser beam
► Refractive index of glass plate
► Refractive index of air |
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Experiments Possible: |
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► Determination of wavelength of laser beam
► Refractive index of glass plate
► Refractive index of air |
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Experiments Possible: |
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► To find the wavelength of laser beam
► Spacing of the Etalon
► Finesse and free spectral range of the Etalon |
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Experiments Possible: |
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► Diffraction of light by single slit
► Diffraction of light by double slit
► Diffraction of light by transmission grating |
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Experiments Possible: |
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► Diffraction of light by single slit
► Diffraction of light by double slit
► Diffraction of light by transmission grating |
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Experiments Possible: |
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► Measurement of groove spacing of a CD
► Verification of meter scale ruling |
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| ► Measurement of size of tiny particles using laser |
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Experiments Possible: |
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► Finding the velocity of ultrasonic wave in liquid
► Bulk modulus of the liquid
► Compressibility of the liquid |
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Experiments Possible: |
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► Study of gaussian nature of the laser beam
► Evaluation of beam spot size
► Measurement of laser beam divergence |
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Experiments Possible: |
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► Characteristic study of LED
► Characteristic study of LDR
► Characteristic study of Photo diode |
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Experiments Possible: |
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► Study of Diffraction of light by single slit
► Particle size determination
► Gaussian nature of the laser beam |
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Experiments Possible: |
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► Numerical aperture measurement
► Finding fiber attenuation by cut-back method
► Measurement of splice loss and bending loss in multi-mode fibers |
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Experiments Possible: |
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► Numerical aperture measurement
► Finding fiber attenuation by cut-back method
► Measurement of splice loss and bending loss in multi-mode fibers |
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Experiment Possible: |
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| ► Finding refractive index of transparent material by measuring Brewster’s angle |
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Experiment Possible: |
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| ► Observation of polarization properties of light and to verify Malus law |
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Experiment Possible: |
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► Variation of polarization properties of crystals with electric field
(Electro Optic Effect) |
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Experiments Possible: |
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► Study of refractive index
► Thickness of thin film samples |
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Experiments Possible: |
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► Determination of wavelength of monochromatic light
► To find the refractive index of liquid |
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Experiments Possible: |
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Study of elastic constants of glass by Cornu’s interference methods,
► Hyperbolic fringes
► Elliptical fringes |
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Experiment Possible: |
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| ► Analysis of surface deformation of materials by speckle and shear plate interferometry |
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Experiment Possible: |
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► Determination of refractive index of the material of a solid prism
► Refractive index of various liquids using liquid prism
► Dispersive power of the material of a prism |
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Experiment Possible: |
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► To measure wavelength of absorption bands of KMnO
► Finding wavelength of prominent lines of the emission spectra |
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