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Lab 8, MOLE RATIOS IN A CHEMICAL REACTION NaHCO 3 (S) + HCl(aq)  CO 2 (aq) + H 2 O(g) + NaCl(S)

Lab 8, MOLE RATIOS IN A CHEMICAL REACTION NaHCO 3 (S) + HCl(aq)  CO 2 (aq) + H 2 O(g) + NaCl(S). OVERVIEW TO COMPARE TWO DIFFERENT COMPOUNDS YOU MUST; IDENTIFY THE KNOWN COMPOUND, THEN CONVERT THE KNOWN TO MOLES.

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Lab 8, MOLE RATIOS IN A CHEMICAL REACTION NaHCO 3 (S) + HCl(aq)  CO 2 (aq) + H 2 O(g) + NaCl(S)

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  1. Lab 8, MOLE RATIOS IN A CHEMICAL REACTION NaHCO3(S) + HCl(aq)  CO2 (aq)+ H2O(g)+ NaCl(S) OVERVIEW • TO COMPARE TWO DIFFERENT COMPOUNDS YOU MUST; • IDENTIFY THE KNOWN COMPOUND, THEN CONVERT THE KNOWN TO MOLES. • RATIO MOLES OF THE KNOWN TO MOLES OF THE OBJECTIVE USING THE COEFFICIENTS OF THE BALANCED REACTION. • CONVERT THE MOLES OF THE OBJECTIVE TO THE UNITS REQUIRED.

  2. RULES TO KNOW • DISREGARD SUBSCRIPTS WHEN ASSESSING REACTION RATIOS, USE THE COEFFICIENTS. • DISCREGRD REACTION COEFFICIENTS WHEN CALCULATING MOLAR MASS. • GAS VOLUMES CAN BE USED IN RATIOS WITH REACTION COEFFICIENTS AT STP. THE PROCESS – STRUCTURE OR SUFFER! STEP 3 CONVERT OBJECTIVE TO UNITS REQUIRED MOLES OF OBJECTIVE STEP ONE CONVERT KNOWN TO MOLES MOLES OF KNOWN STEP TWO-MOLE RATIO MOL KNOWN = COEF KNOWN MOL OBJ = COEF OBJ

  3. THE PROCESS STEP ONE  • IDENTIFY THE KNOWN: YOU MASSED 2.0 g OF NaHCO3 IN THE LAB, THAT IS YOUR KNOWN, 2) CONVERT THE 2.0 g. OF NaHCO3 TOMOLES. 3)THE EQUATIONWHICHRELATES MOLE TO GRAMS. STEP ONE CONVERT KNOWN TO MOLES MOL = MASS G.F.M. MOL =2.00 g = 0.02380 MOL 84.0g/mol NaHCO3, The moles you will use in step two. THE PROCESS STEP TWO   NaHCO3(S) + HCl(aq)  CO2(aq)+ H2O(g)+ NaCl(S) NaHCO3 = 1 = 0.02380molX = 0.02380 mol NaCl(s) NaCl 1 X STEP TWO-MOLE RATIO MOL KNOWN = COEF KNOWN MOL OBJ = COEF OBJ

  4. THE PROCESS STEP THREE  • IN THIS LAB, YOU MASS YOUR PRODUCT IN GRAMS ON THE ELECTRONIC BALANCE. THEREFORE WE CALCULATE THE THEORETICAL YEILD IN GRAMS, THE REQUIRED UNIT FOR OUR OBJECTIVE NaCl. STEP 3 CONVERT OBJECTIVE TO UNITS REQUIRED MOL = MASS G.F.M. 0.02380 Mol = X g = 1.3804 g NaCl (accepted yield) 58.0 g/Mol THIS IS THE MASS OF SALT (NaCl) YOU SHOULD HAVE COLLECTED IN THE LAB, ASSUMMING YOU STARTED WITH 2.0 GRAMS OF NaHCO3. IF YOU USED ANNOTHER MASS OF THE NaHCO3 TO START WITH, THIS PROCESS WOULD GIVE A DIFFERENT ACCEPTED VALUE. THE MASS YOU CALCULATE IS ALSO CALLED THEORETICAL YEILD. WE WILL ROUND THIS TO 1.38 g (3 SIG FIG) AS THE MASS IS 3 SIG. FIG.

  5. THE LAB WRITEUP • THE ABSTRACT SHOULD BE A SUMMARY OF ALL THE LAB AND ITS RESULTS. • LIST ALL OF YOUR DATA THE MASS OF THE EMPTY DISH. • THE MASS OF THE CLEAN WATCHGLASS. • THE MASS OF THE NaHCO3 YOU MASSED. SHOW THE MASS OF WIEGHTING PAPER IF YOU DID NOT TARE THE ELECTRONIC BALANCE. • SHOW THE MASS OF THE DISH AND WATCHGLASS AFTER YOU HAVE HEATED TO CONSTANT MASS, SHOW ALL MASSES DURING THE HEATING CYCLE. • THE FINAL MASS OF THE DISH WITH THE WATCHGLASS AND DRY SALT SHOULD BE SUBTRACTED FROM THE EMPTY DISH WITH THE WATCHGLASS ON IT. THIS MASS IS YOUR EXPERIMENTAL MASS (YIELD) OF THE OBJECTIVE NaCl. • DO THE 3 STEP CALCULATION WITH THE MASS OF NaHCO3 YOU ACUALLY USED IN LAB, EVEN IF IT IS 2.00G, DO THE CALCULATION IN YOUR OWN HANDWRITTING WITH EXTENSIVE EXPLINATIONS FOR EACH STEP. SHOW MOLAR MASS CALCULATION. • USE THE FOLLOWING EQUATION TO CALCULATE YOUR % ERROR. • WRITE A CONLUSION BASED ON THE ACCEPTED(CALCULATED) SALT MASS (YEILD) COMPARED TO THE SALT MASS (YEILD) YOU ACTUALLY HAD IN THE LAB THAT DAY IN REALLITY. DO THE QUESTIONS ON NEXT SLIDE %ERROR =ACCEPTED – EXPERIMENTAL X 100 ACCEPTED EXAMPLE – IF YOU COLLECTED 1.20 g OF SALT IN THE LAB (EXPERIMENTAL). WE CALCULATED THE ACCEPTED VALUE AS 1.38 g. %ERROR =ACCEPTED – EXPERIMENTAL X 100 ACCEPTED %ERROR = 1.38– 1.20 X 100 = 13.0% 1.38

  6. PLACE THESE QUESTIONS AT THE END OF YOUR LAB REPORT, be neat and show all structured work. 1) BASE YOUR ANSWERS FOR QUESTION ONE ON THE FOLLOWING REACTION NaHCO3(S) + HCl(aq)  CO2 (aq)+ H2O(g)+ NaCl(S) • Calculate the moles of NaHCO3 in 8 grams of this compound? • Can you ratio grams with coefficients? • If the 8 grams of NaHCO3 reacts in the above reaction, how many moles of salt (NaCl) should be produced? • If only 6.0 grams of NaCl is collected, what is % error. • How many grams would the NaCl produced (in part b) ) weigh in grams? • How many moles of H2O would result from the reaction of the 8.0 grams of NaHCO3? 2) FOR THE REACTION 3H2 + N2  2NH 3, CALCULATE THE FOLLOWING: a) If 56.0 grams of N2 react, how many moles is that? b) If all of the N2 from part a) reacts, how many moles of NH3 should be produced. c) What would the NH3 produced in part b) weigh in grams.

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