Prepared by: Lorry Mae Allegoric Aisha Cassandra Bellman Deed Anza Lorenz Nor Abraham Tangoing Edward Jewel Fernando Raven Barnacles The objective: The objective was to see which colored Jars had the highest impassivity (or absorbed heat the fastest) & which colors radiate heat the fastest by performing independent tests for heating & cooling the colored Jars. Methods/Materials Nine of the 10 small Jars were painted on the outside with different colors of enamel paint. The 10th Jar was used as the control variable. For the heating testing, the lord Jars were divided into 3 groups.
Group 1: red, blue, yellow; Group 2: gold, silver, black; Group 3: white, green, purple. Each Jar started with 80 ml of 24 degree C tap water. The whirligig had 2 high-powered lights of 500 watts each and 4 Jars were tested at a time (each group was tested 1 at a time; one Jar always being the control) for a total of 3 tests for 1 heating trial. There were 2 Jars per light, both 20 CM from the light and 3 CM from each other. The 4 Jars each had calibrated glass thermometers in them to monitor the water temps. A foil wall was put between the 2 sights to keep light & heat from affecting the other light’s Jars.
The temps were checked every 10 min. For a 100-min. Period and recorded. For the cooling trial, 59 degree C water was poured into the 10 Jars. The temps were checked and recorded the same way as the heating trial. Results period. Blue followed with 59 degrees C. Black was near average, with 52 degrees C. Gold stayed coolest with 41 degrees C. All colors cooled at almost the same rate but Black always had the coolest temp compared to the other Jars. Conclusions/Discussion The hypothesis was incorrect in the heating trial, but was supported in the cooling trial.
During research a picture of the visible spectrum was found, showing blue and green with the thickest bonds. Maybe that’s why the blue and green Jars heated the fastest & appeared to have the highest impassivity. The black Jar cooled the quickest maybe because it’s color had the Jar absorb the heat from the water. Green appeared to have the highest impassivity. It may be linked to why chlorophyll is green. If the colored Jars were placed under a light source, the darkest color of the set would heat the fastest (or have the highest impassivity); if all colored Jars were cooled from the same temperature, the darkest would cool the fastest.