Study of concentration dependence of Refractive index of Sugar and Salt Solution
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1 KATHMANDU UNIVERSITY SCHOOL OF SCIENCE DEPARTMENT OF NATURAL SCIENCE (PHYSICS) Study of concentration dependence of Refractive index of Sugar and Salt Solution A 2 nd Year 1 st Semester Project Report Submitted By: Akur Khadka Uttam Bhandari February
2 Abstract Refraction is a major phenomenon in the day to day life. Different gas, liquids and solids have different refractive index. This project is focused to measure the refractive index of sugar solution which can be used in various works in laboratory and industries. The project consists of LASER as its source of monochromatic light which is passed thorough sugar solutions having different concentration to measure its refractive index. Using a horizontal beam of light, the deviation of the refracted beam striking a horizontal scale placed at a known distance from the prism can be known. The advantage of using laser light, in addition to its monochromaticity (single wavelength), is that it is so intense that it can easily penetrate strongly colored liquids. 2
3 Acknowledgement While working in this project we received help from many people. Without the support and cooperation from these people our project would not have succeeded in this way. We would like to express our gratitude Department of Physics for their support and continuous guidance 3
4 1 Table of Contents 1. Introduction Background Objectives... 5 To study concentration dependence of refractive index of sugar solution and salt solution Literature review Methods Apparatus Working Calculation Results and discussion Result of sugar solution Result of salt solution Reasoning for decrease in refractive index Application of the result Financial report Work schedule Complications Conclusion & Recommendation Reference
5 1. Introduction 1.1. Background Refractive index is one of the most important optical properties of a medium. It plays vital role in many areas of material science with special reference to thin film technology and fiber optics. Similarly, measurement of refractive index is widely used in analytical chemistry to determine the concentration of solutions. Recent studies [Schwartz 1999, Olesberg 2000, Shlichta 1986] provide more detailed discussion on the concentration mapping by the measurement of refractive index of liquids The absolute refractive index of a medium is the ratio of the speed of electromagnetic radiation in free space to the speed of the radiation in that medium. The relative refractive index is the ratio of the speed of light in one medium to that in the adjacent medium. Refraction occurs with all types of waves but is most familiar with light waves. The refractive index of a medium differs with frequency. This effect, known as dispersion, lets a prism divide white light into its constituent spectral colors. For a given color, the refractive index of a medium depends on the density of the medium and density of a solution varies with the concentration of solute. Thus refractive index of a solution depends on its concentration. By calculating the minimum deviation of light through a prism we can calculate the refractive index of the material inside the prism by using, Objectives To study concentration dependence of refractive index of sugar solution and salt solution 1.2 Literature review The method we used in the experiment to measure the refractive index of sugar solution and salt solution consists of intense monochromatic source of light, LASER. For a given color, the refractive index of a medium depends on the density of the medium. In any type of solution, the density of the solution increase with increase in concentration of solute. 5
6 1.3 Methods Apparatus Following apparatus were used in the experiment Source We use LASER as source of light in our experiment because it is intense and monochromatic. Circular base This base can be rotated about a fixed vertical axis. Hollow prism This hollow prism of circular base is easy to fix on the rotatable base. Scale Apparatus setup At first the circular base is placed such that, its center coincide with a fixed vertical axis about which it is rotatable. Than the source is placed at left side of the base such that, LASER from the source passes through the vertical axis and falls perpendicularly on the horizontally placed scale at fixed distance from the base of the axis on right side. Apparatus setup figure are shown below. 6
7 Figure: 1.1 Light falling directly on the scale Figure:1.2 light suffering refraction through prism before falling on scale 7
8 1.3.2 Working At first we prepared highly concentrated solution, sugar solution with 60% concentration and salt solution with 24% concentration (concentration by weight). We measured refractive index, lowered concentration, by 3 in sugar solution and by 2 in salt solution, again measured refractive index. We continuously repeated the process, lowering concentration then measuring refractive index till we obtained refractive index of sugar solution at 3% concentration and salt solution at 2%. The methods of calculation are mentioned below, Calculation Direct position of light is noted on the scale. Then, Solution whose refractive index is to be known is filled in the hollow prism. When the light passes through the prism it suffers refraction and its position on the scale is displaced. Minimum displacement on the scale is found by slightly rotating the prism. After knowing the minimum displacement (d), D min (angle of minimum deviation) can calculated using (1), ( ). (1) Figure 2.1 relation: between minimum displacement and minimum deviation Then refractive index (n) is calculated using (2), ( ) (2) Here A is angle of prism, we used equilateral triangular prism so value of A is 60, 8
9 2 Results and discussion After the calculations with above mentioned ways, we got following results, 1.2. Result of sugar solution As predicted we found decrease in refractive index with decrease in concentration, experimental data are in the table below, S.no Concentration (%) by weight position of mean deviation Dmin (angle) Refractive index
10 The graph, concentration verses refractive index for sugar solution is shown below, 1.46 Refractive index vs concentration Refractive index We see linear dependence of concentration with refractive index from the graph above. The refractive index of water is 1.33 but here in the graph we see 1.33 value of refractive index between concentrations 12 and 15 and that of water is below 1.32, this is because of error in our apparatus. 10
11 1.3. Result of salt solution As predicted we found decrease in refractive index with decrease in concentration, experimental data are in the table below, S.no Concentration (%) by weight Position of mean deviation Dmin (angle) Refractive index
12 1.38 Refractive index vs concentration Refractive index The graph, concentration verses refractive index for salt solution is shown above. We see linear dependence of concentration with refractive index from the graph above. The refractive index of water is 1.33 and we have nearly got it. (Refractive index of sugar solution and salt solution were calculated with different apparatus setup) 1.4. Reasoning for decrease in refractive index As the density of the medium increases the refractive index of that medium also increases. A solution with high concentration of solute means it is denser than the solution with low concentration of solute. Thus, solution with high concentration of solute has high refractive index than the solution with low concentration Application of the result From the concentration verses refractive index graph of any solution, refractive index of solution at any concentration can be known and the solution can be used in different optical devices, in experiments of light. From the graph we can also know concentration of any solution by measuring its refractive index and use the solution in different chemical processes. 12
13 1.6. Financial report As all the materials required for the project were available in the laboratory we only needed to purchase few things. S.no Material quantity cost 1 Hollow prism Work schedule September October November December January February Finalize Project Proposal Presentation Literature Survey Apparatus Setup Experimentation and Data Collection Final Presentation 1.8. Complications The complications aroused during the project were as follows: We had problem during apparatus setup, we required no change in position of apparatus during the experiment, which didn t happen. We didn t have a scale long enough to take reading at large distance from the prism, so we could have got more accurate data. We didn t get pure salt for our experiment, so we used salt with iodine. We didn t get pure sugar. There were some insoluble impurities in our sugar solution. 13
14 2. Conclusion & Recommendation The method of calculating refractive index of any solution with any concentration by the use of LASER makes easy to understand the concentration dependence of refractive index of that solution. In our experiment we found some error while comparing refractive index of water, that we measured with the standard one. This is due to small errors in apparatus arrangement, which could be recovered in another similar project with following recommendations. Fixing a long horizontal straight thick bar, above which source, circular base and scale stand could be fixed. This will minimize errors from accidental displacement of apparatus. Using measuring tape instead of scale. This will give us high resolution data as measuring tape can be placed far from prism. 14
15 4 Reference KATHMANDU UNIVERSITY JOURNAL OF SCIENCE, ENGINEERING AND TECHNOLOGY VOL.II, No.1, FEBRUARY,
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