Charles Law Essay, Research Paper

? Using Charle? s Law To Determine Absolute Zero?

Tuesday 7th of December

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One of the variables that affects the volume of a gas is the temperature of the gas and its milieus. This volume-temperature relationship is quantified in Charles? s jurisprudence. The jurisprudence states that as the temperature of a gas decreases, the volume of the gas decreases proportionally. An ideal gas at 273 K, for illustration would diminish in volume by 1/273 of its original volume for each Celsius degree the temperature decreases. If the temperature decreased sufficiently, the volume should diminish to zero. Real gases, nevertheless, liquefy and solidify long before this theoretical bound, called absolute nothing, is reached. By utilizing air as a sample of a existent gas and restricting the temperature scope, it is possible to gauge the temperature that would match to absolute nothing.

Materials Used:

& # 183 ; Apron

& # 183 ; Goggless

& # 183 ; Thermometer

& # 183 ; Hot Plate

& # 183 ; Paper Towel

& # 183 ; Thin Stem Pipet

& # 183 ; ( 2 ) 400-mL Beakers


& # 183 ; Demonstrate the relationships between the temperature of a gas and its volume.

& # 183 ; Graph the relationship.

& # 183 ; Estimate the temperature of absolute nothing by extrapolation.


& # 183 ; Fill two 400-mL beakers half full with tap H2O.

& # 183 ; Begin heating the H2O in one beaker to a temperature that is 10*C above room temperature.

& # 183 ; Fill a thin root pipet wholly with room temperature H2O. To do certain the pipet is filled, first draw in every bit much H2O as possible. Then, keeping the pipet by the bulb with the root indicating upward, squash the bulb somewhat to chuck out any air left in the bulb and root. Keeping this force per unit area on the bulb, insert the tip of the root into the H2O. Let go of the force per unit area on the bulb, and the pipet will make full wholly.

& # 183 ; Dispense the H2O from the pipet numbering the entire figure of beads it takes to empty the pipet.

& # 183 ; Record the room temperature and the figure of beads.

& # 183 ; Stop heating the H2O when a temperature 10*C above the room temperature is reached.

& # 183 ; Keeping the thin root pipet by the root, plunge the bulb in the warm H2O.

& # 183 ; Keep the pipet in the warm H2O for a few proceedingss so that the air in the pipet reaches the temperature of the H2O.

& # 183 ; Pinch the root of the pipet to seal off the bulb. Put the bulb

in the other beaker of H2O which is at room temperature.

& # 183 ; Still squeezing the root, plunge the full pipet, including the root, in the H2O, let go of the root underwater. A little sum of H2O should be drawn into the pipet. This H2O is equal in volume to the sum of gas lost when the pipet bulb was heated and the air inside it expanded.

& # 183 ; Remove the pipet from the H2O bath. Dry the exterior of the pipet, with the paper towel. Expel the H2O, numbering the figure of beads of H2O that were drawn into the pipet.

& # 183 ; Add the figure of beads to the initial volume noted. Record the entire volume and the temperature of the warm H2O bath.

& # 183 ; Dry the interior of the pipet, by pulling in the air and so let go ofing the bulb several times.

& # 183 ; Repeat from the 6th to the thirteenth measure at a temperature that is 10*C above the old test.

& # 183 ; Continue this process until the H2O temperature is about 75*C.

& # 183 ; Record all consequences.

Data And Observations:

Temperature/Volume Changes Of Air

Temperature ( *C ) Entire Volume ( Drops )

19 134

29 138

39 140

49 160

59 169

69 178





Mistakes And Possible Improvements:

& # 183 ; Possible mistakes could happen while numbering the beads, people can either lose count, or excessively many beads will be let out alternatively of individual beads. To better this forbearance and tolerance are a must, travel rapidlying will merely do the individual to re-start from the beginning.

& # 183 ; Mistakes could besides happen while taking the temperature of the warm H2O, if the hot home base is turned off, the beaker will evidently chill down a few grades and so this might impact the consequences. An thought to better this would be puting the hot home base on a moderate heat so that the same heat temperature can be stable throughout the processs.

& # 183 ; Mistakes could happen if the tip of the pipet is non pinched decently, this will ensue in the false figure of beads acquiring drawn into it. To better this 1 must do certain the whole tip is pinched and that there is no infinite for any air to come in or get away.

& # 183 ; Mistakes could happen if the figure of proceedingss in which the bulb is immersed in the warm H2O is different. This might hold a few effects on the consequences and figure of beads. To better this either make certain you set a stop ticker or give each process the same exact clip to plunge the bulb.


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