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19 Nov 2019
1. You will follow the same procedure as you used for Experiment 1 constant, but you will vary the temperature of the solutions before 2. Prepare a water bath for your next set of solutions. Fill a 250 mL tap) water at 35°C. There should be enough water in the beakers tubes are well beneath the water level in the baths. Make sure to tubes before placing them in the water bath. 3. Use the thermometer to monitor water bath temperatures. Try to ke within 0.5°C of the assigned temperature. Add more ice or warm w water bath temperature just before mixing the solutions in the data ta 4. Note the time. Remove the parafilm and measure and record the Calculate the elapsed time. 3rd Series 5. Use the same volumes of the solutions used in Exp.1, but do not heat 0.2 M CuSOs and shake the test tube gently with the required volume of RESULTS 1 Series Temp: Group |Exp 1 |Exp 2 Exp 3 G0 1 0 SS 55 135 Temp Time 12nd Series | 120 | 30 | 3°Series 140 | \80 | 240
1. You will follow the same procedure as you used for Experiment 1 constant, but you will vary the temperature of the solutions before 2. Prepare a water bath for your next set of solutions. Fill a 250 mL tap) water at 35°C. There should be enough water in the beakers tubes are well beneath the water level in the baths. Make sure to tubes before placing them in the water bath. 3. Use the thermometer to monitor water bath temperatures. Try to ke within 0.5°C of the assigned temperature. Add more ice or warm w water bath temperature just before mixing the solutions in the data ta 4. Note the time. Remove the parafilm and measure and record the Calculate the elapsed time. 3rd Series 5. Use the same volumes of the solutions used in Exp.1, but do not heat 0.2 M CuSOs and shake the test tube gently with the required volume of RESULTS 1 Series Temp: Group |Exp 1 |Exp 2 Exp 3 G0 1 0 SS 55 135 Temp Time 12nd Series | 120 | 30 | 3°Series 140 | \80 | 240