Demonstration Experiment - Boyle's Law-effect of pressure at constant temperature
Imagine that you performed this experiment as described in your manual. In doing so, your first pressure reading was 637 mmHg, and your second presure reading was 780 mmHg. Your first volume was 46.7 ml.
Part A
What would the percent error be if your measured second volume was 38.9 mL?
What would the percent error be if your measured second volume was 38.9 mL?
Demonstration Experiment - Boyle’s Law—effect of pressure at constant temperature. Imagine that you performed this experiment as described in your manual. In doing so, your first pressure reading was 629 mmHg , and your second presure reading was 752 mmHg . Your first volume was 46.8 mL . Part A What would the percent error be if your measured second volume was 38.9 mL ?
Demonstration Experiment Boyle's Law-effect of pressure at constant temperature. Imagine that you performed this experiment as described in your manual. In doing so, your first pressure reading was 650 mmHg, and your second presure reading was 756 mmHg. Your first volume was 47.3 mL Part A What would the percent error be if your measured second volume was 38.4 mL?
Demonstration Experiment - Boyle's Law_effect of pressure at constant temperature Imagine that you performed this experiment as described in your manual. In doing so, your first pressure reading was 633 mmHg, and your second presure reading was 772 mmHg Your first volume was 46.5 mL Part A What would the percent error be if your measured second volume was 38.9 mL? Vo Azoto e o q ? Submit Request Answer
What would be your calculated second volume? ΑΣφ 36.44 mL Demonstration Experiment - Charles's Law - Effect of Temperature at Constant Pressure Imagine that you performed this experiment as described in your lab manual. In doing so, your first temperature reading was 44°C, and your second reading was 75 °C. Your first volume was 40 mL .
a) If the specific heat of methanol is 2.51 J/K-g, how many joules are necessary to raise the temperature of 87 g of methanol from 4 oC to 99 oC ? b When a 3.78 g sample of solid sodium hydroxide was dissolved in a calorimeter in 150.0 g of water, the temperature rose from 14.5 oC to 45.2 oC . Calculate ΔH (in kJ/mol NaOH) for the following solution process: NaOH(s)→Na+(aq)+OH−(aq) Assume that it’s a perfect calorimeter and that the specific heat of...
Imagine that you performed this experiment as described in your lab manual. In doing so, your first temperature reading was 32℃ , and your second reading was 54℃. Your first volume was 21 mL . what would be your calculated 2nd volume?
imagine that you perform this experiment as described in your lab manual in doing so your first temperature reading was 33°C and your second reading was 71°C your first volume was 34 mL what would be your calculated second volume?
CHARLES' LAW DATA SHEET Calculate the percent error, when comparing your experimental theoretical final volume Show all calculatie on separate page, Percent error volume to you Show calculations and answer questions on a separat Final measurements Initial masurements 1- 93.1 3112rk To 5.1 C-275,25k V- 58.5 mL . Volume of water drawn into ask V 201.5 ml. • V-V-V 3) List some sources of error that you might have made in this experiment - 260mL nitial volume (V) and Calculations...
*SHOW YOUR WORK* (Boyle's Law): 1. What is the final volume (in mL) or argon gas is 50.0 mL at 705 torr is compressed to a pressure of 2.75 atm, at constant temperature? (Lewis Dot Structures): 2. Draw Lewis structures for the following molecules. Include partial charges, AXE designation, (example: AX2 E2), Electron-pair geometry and geometric-molecular shapes. Is it Polar or Non-Polar? CH2Cl2 SO2 3. Which of the following explains why the pressure of a gas increases when the temperature...
part c and d please ? The Gas Laws h. Measured final volume of gas in the flask (V2 measured): mL 26laml 1. Calculated final volume of gas in the flask (V2 calculated): mL 3247610 371.65 295.75 j. Percent of error: % 3% Calculations (include all units): 0.872 = 0.899 2. Review Questions: a. Suppose a student performed this experiment but did NOT close off the rubber tubing during the transfer to the cold water bath. Would their V2 measured...