Switch On/Off Light : Used to switch on/off the light.
Place Prism/Remove Prism : This switch used to place the prism on the prism table or remove prism from the prism table.
Slit focus : This slider used to focus the slit while looking through telescope.
Slit width : Using this slider, width of the slit can be adjusted.
Telescope: Using this slider one can move the telescope from its position.
Vernier Table: Vernier table can be rotate using this slider.
Fine Angle adjustment
Telescope: This is used to fine adjust the telescope.
Vernier Table: Using this slider , we can rotate fine angle.
Here we get the zoomed view of vernier I and II by placing mouse pointer over it.
- Focus Telescope on distant object.
- When focus is correct, start button is activated. Then click Start button.
- Switch on the light by clicking Switch On Light button.
- Focus the slit using Slit focus slider.
- Adjust the slit width using Slit width slider.
- Coincide the slit with cross wire in the telescope.
Performing Real Lab:
- Turn the telescope towards the white wall or screen and looking through eye-piece, adjust its position till the cross wires are clearly seen.
- Turn the telescope towards window, focus the telescope to a long distant object.
- Place the telescope parallel to collimator.
- Place the collimator directed towards sodium vapor lamb. Switch on the lamp.
- Focus collimator slit using collimator focusing adjustment.
- Adjust the collimator slit width.
- Place prism table, note that the surface of the table is just below the level of telescope and collimator.
- Place spirit level on prism table. Adjust the base leveling screw till the bubble come at the centre of spirit level.
- Clamp the prism holder.
- Clamp the prism in which the sharp edge is facing towards the collimator, and base of the prism is at the clamp.
Least Count of Spectrometer
One main scale division (N) =................minute
Number of divisions on vernier (v) = ................
L.C = = .......................minute
To determine the Angle of minimum deviation:
- Rotate prism table so as to get the refracted light through the prism.
- Make the slit coincide with telescope cross wire.
- Slowly rotate the vernier table by using vernier fine adjusting slider.
- Note the position where the slit is stationary for some moment.
- Using telescope fine adjusting slider, make coincide the slit with cross wire.
Performing Real Lab
- Rotate the prism table so that the light from the collimator falling on one of the face of the prism and emerges through the other face.
- The telescope is turned to view the refracted image of the slit on the other face.
- The vernier table is slowly turned in such a direction that the image of slit is move directed towards the directed ray; ie., in the direction of decreasing angle of deviation.
- It will be found that at a certain position, the image is stationary for some moment. Vernier table is fixed at the position where the image remains stationary.
- Note the readings on main scale and vernier scale.
- Carefully remove the prism from the prism table.
- Turn the telescope parallel to collimator, and note the direct ray readings.
- Find the difference between the direct ray readings and deviated readings. This angle is called angle of minimum deviation (D).
To determine the Resolving power of prism :
- Rotate the vernier table so as to fall the light from the collimator to one face of the prism and emerged through another face. (refer the given figure ).
- The emerged ray has different colors.
- Turn the telescope to each color, and note the readings for different colors.
- Remove the prism, hence note direct ray reading.
- Find the angle of minimum deviation for different color.(Say ,violet, blue, green, yellow).
- Find the refractive index for these colors. Using equation (3).
- Resolving power for yellow and blue
Where and are the refractive index of blue and yellow, and
Refractive index for the line ________ n1 =
Refractive index for the line ________ n2 =
Average refractive index n =
Resolving power for ______ and ______ line ω = =
|Angle of the Prism
|Angle of minimum deviation of the prism
|Refractive index of the material of the prism
|Dispersive power of the prism