Diffraction and interference of light

The objective of this try out is to measure the wavelength of Sodium (Na) light evolution the property of separateion of light; And to measure the Rydberg cons topazt for hydrogen. In the battlefront offend of the experiment Na light was allowed to diffract through and through very olive-sized slits and the deportment of the diffracted light was examined by criterion the smirch of the bright lights. In the present moment tell of the experiment hydrogen was allowed to diffract through very small slits and the behavior of each of the three bright lights was examined by measuring the impersonate of each bright color. In the number one break down off the ground of the experiment the distance among the slits and the screen was 0.70m, two different distances in the midst of the lines of the grating (d) were apply (1/100mm and 1/300mm) and the position of the showtime bright lights in each case were 0.04m and 0.12m respectively. In the countenance part of the experime nt, the distance amidst the screen and the slits was 0.75m. When the distance amidst the slits was 1/300mm the positions of the trigger-happy, blue-green, violet bright colors were 14cm, 11.5cm and 9.5cm. When the distance between the slits was 1/600mm the position of the red, blue-green, violet bright colors were 29.7cm, 21.5cm and 19cm.

In the first experiment the angle of diffraction was calculated apply the locution tan ? = y/L to get ? = 3.27? and the wavelength (?) was calculated using the formula d sin ? = n ? to get 5.7 X 10-7 and 5.63 X 10-7 when the distance between each slit was 1/100mm and 1/300mm respectively. The average wavelength of sodium is ?Na = 5.65 X 10-7. The al ike(p) formulas were used to calculate the w! avelength in the second experiment to get ?red = 6.12 X 10-7, ?blue-green = 5.03 X... If you want to get a amply essay, order it on our website: OrderEssay.net

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