Data Table: Analysis: 1. 2. 3. mg. 4. 5 Use a different lighter for each trial. find and record the mass of each of the butane lighters to the nearest 0.1 Trial number lighter number initial mass of lighter final mass of lighter (we'll get this after they have dried overnight) Temperature (read from thermometer) volume of butane (read from eudiometer tube) Barometric pressure (read from barometer) vapor pressure of water (read from chart of vapor pressures) 1 13.35099 13.24820 22.4°C 4482mL 29.85 int 20.45 2 3 W Convert the barometric pressure from inHg to mmHg. (1 in = 25.4 mm) Use Dalton's Law to calculate pressure of the butane alone. Using the Ideal Gas Law, calculate the moles of butane for each trial using the ideal gas law. Calculate the mass of butane collected for each trial. Calculate the molar mass of butane gas for each trial. 1 molar = mas mass V₁

How would you solve the fourth question?

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13. Data Table: Analysis: 1. 2. 3. 4. 5. 6. 7. 8. 9. process for a second and third trial. Use a different lighter for each trial. The next day, find and record the mass of each of the butane lighters to the nearest 0.1 mg. 10. Trial number lighter number initial mass of lighter final mass of lighter (we'll get this after they have dried overnight) Temperature (read from thermometer) volume of butane (read from eudiometer tube) Barometric pressure (read from barometer) vapor pressure of water (read from chart of vapor pressures) 1 2 Proqui 13.35099 13.24820 22.4°C 44.82 mL 29.85 ing 20.45 ens va 3 MO Convert the barometric pressure from inHg to mmHg. (1 in = 25.4 mm) Use Dalton's Law to calculate pressure of the butane alone. Using the Ideal Gas Law, calculate the moles of butane for each trial using the ideal gas law. Calculate the mass of butane collected for each trial. Calculate the molar mass of butane gas for each trial. Molar Mass = Mass / # of moles n= Calculate the average molar mass of butane. Determine the formula of butane and the accepted molar mass of butane. Calculate the PV=nRT percent error in your experimentally determined molar mass. If some bubbles of butane escape and are not collected in the eudiometer, how will the You would think the maar experimentally determined molar mass be affected? You Would think the malar mass If an air bubble is left in the eudiometer before the gas is collected, how will the experimentally determined molar mass be affected? If a student forgets to adjust the total pressure to calculate the pressure of just the butane, ally determined molar mass be affected? 1 mol = mass mass