Experiment #3 Using Physical Properties To Determine the Identity of an Unknown Laboratory Overview CHEM 1361 August 2012 Gary S. Buckley, Ph.D. Department of Physical Sciences Cameron University
Learning Objectives Distinguish between physical and chemical properties Experimentally determine the boiling point of a compound Determine the index of refraction of a material, time and instrumentation permitting Experimentally determine the miscibility of two liquids Use physical property data to identify an unknown from a list of possible compounds
Density Boiling Point Table of Contents (you may click on any of the topics below to go directly to that topic) Index of Refraction Solubility
Density Density is defined to be the mass of a sample of a substance divided by its volume. In mathematical terms, density mass volume In this experiment, you will determine the density of your unknown as a means of helping determine its identity. The measurement is a simple matter of determining the mass of a known volume and carrying out the division above.
Density s Role in this Experiment Density will be used in this experiment as one of the physical properties to help identify your unknown from the list at the right. There are a couple of important things to notice: If only one significant figure is measured experimentally, 5 of the 9 compounds would have the same density (0.8 g/ml) The instructions for measuring the density will lead to masses and volumes to at least three significant figures. Your density values should all have three significant figures as well as your average. Don t be lazy with significant figures remember that if you divide, for example, 2.94 g by 1.47 ml, the density is 2.00 g/ml not 2 g/ml. Possible Unknowns Compound Density (g/ml) water 1.00 ethyl acetate 0.902 ethanol (95%) 0.816 1-propanol 0.804 methanol 0.791 Acetone 0.791 2-propanol 0.785 cyclohexane 0.779 hexane 0.659
Boiling Point The liquid state of matter is comprised of atoms or molecules that are virtually in constant contact with each other moving relatively slowly past each other. The vapor state on the other hand contains atoms or molecules that are spaced far away from each other on the atomic scale and are moving rapidly with frequent collisions. In any liquid sample atoms or molecules are constantly escaping into the vapor phase and condensing into the liquid phase. As the temperature of the liquid increases, the fraction of molecules in the vapor phase increases. The pressure of the vapor above the sample is called the vapor pressure of the liquid. The temperature at which the vapor pressure of the sample equals the external pressure on the sample is called the boiling point. The temperature at which the vapor pressure of the liquid is 1 atmosphere is called the normal boiling point.
Boiling Point Pressure Med. The animation on the right is intended to give some visual sense of the effect of temperature on the vapor pressure of a liquid. Watch the temperature and pressure gauges and the distribution of atoms/molecules between the liquid and vapor phases. Low High High Med Low Click anywhere on this slide to start the animation. Temperature Low Temperature Medium Temperature High Temperature
Boiling Point - Experimental The boiling point of your unknown will be determined by heating a test tube containing the unknown in a temperature bath. A stainless steel temperature probe connected to a handheld LabQuest 2 data acquistion device will be placed just above the surface of your unknown. As the unknown is heated the temperature will rise but it will level off once the unknown begins to boil. Once the temperature levels off, you will find the average temperature in the leveled-off region and record that as your boiling point. Instructions for using the LabQuest 2 may be found under another item in Blackboard in the same location as this slide show. It is a 20-minute video showing you how to work the LabQuest 2.
Index of Refraction You are probably aware that light travels incredibly fast 3 10 8 m/s or 186000 miles/s. These speeds refer to light traveling in a vacuum it travels more slowly in other materials. The index of refraction, η, is the ratio of the speed of light in a vacuum to the speed of light in the material of interest. Possible Unknowns Compound nd Refractive index Cyclohexane 1.426 1-propanol 1.384 2-propanol 1.377 Hexane 1.375 speed of light in vacuum speed of light in substance of interest ethyl acetate 1.372 Since light travels fastest in a vacuum, η will always be greater than one. We can use the value of η to help distinguish between the possible unknowns. ethanol (95%) 1.363 Acetone 1.359 Water 1.333 Methanol 1.329
Index of Refraction You may or may not have an opportunity to carry out index of refraction measurements it depends on instrumentation availability the day you do the lab. The instrument used to measure the index of refraction is called a refractometer. A liquid sample is placed on the stage and the cover is gently closed. If the switch on the lefthand side of the instrument is moved up, a light can be seen through the ocular part of the refractometer. Ocular Piece Switch Stage (Description continued on next slide)
Index of Refraction The goal is to turn the knob on the right-hand side of the instrument until the light-dark horizontal separation in the ocular is aligned at the crosshairs. Once this positioning is accomplished, the switch on the left-hand side is moved to the downward position and the index of refraction reading is made on the visible scale. The reading in the window to the right would be 1.3596. The lower scale is not used here.
Solubility Solubility is the fourth of the physical properties you will investigate. Two liquids that mix with each other are said to be soluble, or miscible. If the liquids do not mix with each other they are said to be insoluble, or immiscible. Possible Unknowns As the table to the right indicates, the solubility behavior of the unknowns is not a great differentiator between the compounds. But, when coupled with the other information, these data may be helpful in confirming your unknown identification. You will check the solubility of your unknown in two solvents water and cyclohexane. Pay careful attention to the instructions in the lab manual regarding looking for wavy lines and the behavior following stirring. Compound solubility in water solubility in cyclohexane ethyl acetate sl. s s water s i 1-propanol s s 2-propanol s s ethanol (95%) s sl. s methanol s sl. s acetone s s cyclohexane i s hexane i s
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