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In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (111) oxide...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (III) oxide...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (III) oxide to produce Aluminum Oxide and Elemental iron (not diatomic). (10 pts each) a) Write and balance the chemical formula, What type of reaction was it? b) Identify the chemical that is being reduced? c) How many mols of Iron(lll) oxide do you have? d) which is the limiting reagent? e) How many grams of Aluminum Oxide did you produced? f) What would be your...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (111) oxide...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (111) oxide to produce Aluminum Oxide and Elemental iron (not diatomic) (10 pts each) f) What would be your % yield be if you produced 10 g of elemental iron? g) If you produced 5 grams of aluminum oxide, how many atoms of aluminum are in the 5 grams? h) The reaction required a lot of heat to begin and it did not release any heat?...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (Ill) oxide...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (Ill) oxide to produce Aluminum Oxide and Elemental iron (not diatomic). (10 pts each) h) The reaction required a lot of heat to begin and it did not release any heat? Was the reaction exothermic or endothermic i) If the reaction required a lot of energy what can you infer from the activation energy?
Name: Chapter 7 Quiz In one experiment you reacted 45.78 of Aluminum with 182.8 g of...
Name: Chapter 7 Quiz In one experiment you reacted 45.78 of Aluminum with 182.8 g of Iron (III) oxide to produce Aluminum Oxide and Elemental iron (not diatomic). (10 pts each) a) Write and balance the chemical formula, What type of reaction was it? b) Identify the chemical that is being reduced? c) How many mols of Iron(Ill) oxide do you have? d) Which is the limiting reagent? e) How many grams of Aluminum Oxide did you produced? f) What...
Iron (III) oxide can react with aluminum metal to produce aluminum oxide and iron metal This...
Iron (III) oxide can react with aluminum metal to produce aluminum oxide and iron metal This is called the thermit reaction and it produces so much heat that it can be used for incendiary bombs and for welding. How many grams of aluminum oxide will be produced by the reaction of aluminum with 45.8 g of iron(III) oxide?
For the following reaction, 55.7 grams of iron(III) oxide are allowed to react with 23.5 grams of aluminum. iron(III) o...
For the following reaction, 55.7 grams of iron(III) oxide are allowed to react with 23.5 grams of aluminum. iron(III) oxide(s) + aluminum(s) — aluminum oxide(s) + iron(s) What is the maximum amount of aluminum oxide that can be formed? grams What is the FORMULA for the limiting reagent? What amount of the excess reagent remains after the reaction is complete? grams
A mixture of 10.325 g of iron (III) oxide and 5.734 g of aluminum metal is...
A mixture of 10.325 g of iron (III) oxide and 5.734 g of aluminum metal is placed in a crucible and heated in a high-temperature oven, where iron and aluminum oxide is formed. How many atoms of iron is formed during this reaction? (2 pts) How much aluminum, in grams, is left over after the chemical reaction has occurred? (2 pt) a.
Iron reacts with oxygen at high temperatures to form iron(III) oxide. 4Fe(s)+3O2(g)⟶2Fe2O3(s) Suppose 14.2 g of...
Iron reacts with oxygen at high temperatures to form iron(III) oxide. 4Fe(s)+3O2(g)⟶2Fe2O3(s) Suppose 14.2 g of iron (Fe) is reacted with 18.1 g of oxygen (O2). Select the limiting reagent. Fe2O3 O2O2 FeFe Calculate the theoretical yield of iron(III) oxide (Fe2O3Fe2O3). theoretical yield = The reaction produces 5.40 g of Fe2O3. What is the percent yield of the reaction? percent yield =
It is desired to produce 5.34 grams of iron(III)oxide by the following reaction. If the percent...
It is desired to produce 5.34 grams of iron(III)oxide by the following reaction. If the percent yield of iron(III)oxide is 85.4%, how many grams of iron would need to be reacted? grams iron iron(s) + oxygen(g) - iron(III) oxide(s) Submit Answer Retry Entire Group 2 more group attempts remaining The equation for this reaction is: 4 Fe(s) + 3 02(9) - Fe2O3(s)
Name TA Laboratory Date - Section Experiment 9-Post-lab Questions 1. Methanol (CH,OH) can be produced by...
Name TA Laboratory Date - Section Experiment 9-Post-lab Questions 1. Methanol (CH,OH) can be produced by the reaction of carbon monoxide (CO) with hydrogen (H). The balanced chemical reaction is: CÓg) + 2 H (8) -CH,OH() Suppose 14.0 g of carbon monoxide is reacted with 8.0 g of hydrogen. a. Which reactant is the limiting reagent? b. What is the theoretical yield for methanol? c. At the completion of the reaction, how many grams of the excess reagent will remain?...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (III) oxide to produce Aluminum Oxide and Elemental iron (not diatomic). (10 pts each) a) Write and balance the chemical formula, What type of reaction was it? b) Identify the chemical that is being reduced? c) How many mols of Iron(lll) oxide do you have? d) which is the limiting reagent? e) How many grams of Aluminum Oxide did you produced? f) What would be your...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (111) oxide to produce Aluminum Oxide and Elemental iron (not diatomic) (10 pts each) f) What would be your % yield be if you produced 10 g of elemental iron? g) If you produced 5 grams of aluminum oxide, how many atoms of aluminum are in the 5 grams? h) The reaction required a lot of heat to begin and it did not release any heat?...
In one experiment you reacted 45.7 g of Aluminum with 182.8 g of Iron (Ill) oxide to produce Aluminum Oxide and Elemental iron (not diatomic). (10 pts each) h) The reaction required a lot of heat to begin and it did not release any heat? Was the reaction exothermic or endothermic i) If the reaction required a lot of energy what can you infer from the activation energy?
Name: Chapter 7 Quiz In one experiment you reacted 45.78 of Aluminum with 182.8 g of Iron (III) oxide to produce Aluminum Oxide and Elemental iron (not diatomic). (10 pts each) a) Write and balance the chemical formula, What type of reaction was it? b) Identify the chemical that is being reduced? c) How many mols of Iron(Ill) oxide do you have? d) Which is the limiting reagent? e) How many grams of Aluminum Oxide did you produced? f) What...
Iron (III) oxide can react with aluminum metal to produce aluminum oxide and iron metal This is called the thermit reaction and it produces so much heat that it can be used for incendiary bombs and for welding. How many grams of aluminum oxide will be produced by the reaction of aluminum with 45.8 g of iron(III) oxide?
For the following reaction, 55.7 grams of iron(III) oxide are allowed to react with 23.5 grams of aluminum. iron(III) oxide(s) + aluminum(s) — aluminum oxide(s) + iron(s) What is the maximum amount of aluminum oxide that can be formed? grams What is the FORMULA for the limiting reagent? What amount of the excess reagent remains after the reaction is complete? grams
A mixture of 10.325 g of iron (III) oxide and 5.734 g of aluminum metal is placed in a crucible and heated in a high-temperature oven, where iron and aluminum oxide is formed. How many atoms of iron is formed during this reaction? (2 pts) How much aluminum, in grams, is left over after the chemical reaction has occurred? (2 pt) a.
It is desired to produce 5.34 grams of iron(III)oxide by the following reaction. If the percent yield of iron(III)oxide is 85.4%, how many grams of iron would need to be reacted? grams iron iron(s) + oxygen(g) - iron(III) oxide(s) Submit Answer Retry Entire Group 2 more group attempts remaining The equation for this reaction is: 4 Fe(s) + 3 02(9) - Fe2O3(s)
Name TA Laboratory Date - Section Experiment 9-Post-lab Questions 1. Methanol (CH,OH) can be produced by the reaction of carbon monoxide (CO) with hydrogen (H). The balanced chemical reaction is: CÓg) + 2 H (8) -CH,OH() Suppose 14.0 g of carbon monoxide is reacted with 8.0 g of hydrogen. a. Which reactant is the limiting reagent? b. What is the theoretical yield for methanol? c. At the completion of the reaction, how many grams of the excess reagent will remain?...
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