I need the ones that I did checked, and c, f, l, and m done please.
Molar Volume of Oxygen Experiment
Before you can start the Molar Volume experiment, you must: Correctly solve problems 1A, B and C and 2 . Pass a short computer quiz [based in part on 3 below] 1) You are given an unknown containing KCIO3. Following the procedure in your manual, you obtain the following fictional dat:a Note! For this problem use the given (allbeit incorrect) vapor pressure of water Mass of empty test tube 74.9384 g, 75.2125 g t-Mass of test tube + unknown Mass of test tube + unknown +MnO2ã¼ã¼ã¼ã¼ã¼ã¼ã¼ã¼ã¼ã¼ã¼75.3411g Mass of erlenmeyer flask with residual water sMass of erlenmeyer flask filled with water Atmospheric pressure 1 Temperature of water Partial pressure of water at 38.3 1 Mass of test tube+ Residue after heating 37.39 g 358.35 g 769.3 mmHg 38.3 C 38.51 mmHg 75.2890 g 996 g/mL 5 Density of water Calculate: A) Molar volume of Oxygen 36.35- 332.32 21.044 mL (a) Volume of Oxygen collected ·114 (b) Partial pressure ofdry oxygen 741.3-3:37 z (c) Volume of oxygen corrected to STP (d) Mass of oxygen produced75.3+ 75,L810 2 (e) Moles of oxygen gas produced (f) Calculated molar volume at STP B) Per cent KCIOj in unknown (g) Mass of unknown used .75. 리 2S-74ã (h) Moles of KCIO3 calculated from moles oR (i) Mass of KCIO3 in unknown calculated from moles 02 G) Per cent KCIO, in unknown C) Residual "KC1??" from UNKNOWN 7807-ette mmHg mL mol L/mol smol 0.1330 4è¹ãä¹ Residual "KCI??" is what is left in the tube after heating except for the MnO ã--ã (k) Mass of residual KCI? produced from UNKNOWN (1) Theoretical yield of KCl if UNKNOWN is 100% KCIOg (m) % Yield of "KCI" based on k and l above g 2) Look up in the handbook or elsewhere.... mmHg the actual vapor pressure of water at 38.3 °C