pyroglycerine Posted October 8, 2013 Share Posted October 8, 2013 (edited) Hi, The Question: For 1dm cubed of a gas in normal conditions with a mass of 2.86g, calculate the average relative molecular mass and density at 17C and 207kPa Please explain to me the method of solving this. My working for the average relative molecular mass: M=mPV/RT M= 2.86x207x1/8.314x290 M= 0.2455g/mol Mr=0.2455 This however is not correct, as the answer in the textbook is 64.1 Thanks. Edited October 8, 2013 by pyroglycerine Link to comment Share on other sites More sharing options...
hypervalent_iodine Posted October 8, 2013 Share Posted October 8, 2013 The question is worded a little weirdly or you haven't written it down properly. It's asking you two different things under two sets of conditions.1. 1 dm3 (or 1 L) of gas at STP has a mass of 2.86 g, find its relative molecular mass. 2. Calculate the density of that gas at 17oC and 207kPa Point being, in scenario 1, the pressure and temperature is standard (1 atm and 298 K). You can use PV = nRT or you could simply recall the fact that 1 mole of gas at STP occupies 22.4 L. Link to comment Share on other sites More sharing options...
pyroglycerine Posted October 8, 2013 Author Share Posted October 8, 2013 Thank you very much for clarifying that for me. The reason it's worded weirdly it's translated from Chinese and that's also probably the reason I didn't understand the question properly. Anyway, great help, thanks again! Link to comment Share on other sites More sharing options...
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