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 (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 (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...
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...
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) c) How many mols of Iron(III) 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 % yield be if you produced 10 g of elemental iron?
3. Aluminum undergoes a single replacement reaction with iron (III) oxide, releasing 850.2kJ of energy. How much energy would be released if 5.0g of aluminum was reacted with an excess of iron (III) oxide? a. Is this reaction exothermic or endothermic? b. Write the AH with the correct sign: c. Write the full, balanced equation. d. Use conversion factors to calculate the energy absorbed or released.
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?
Iron oxide reacts with aluminum in an exothermic reaction. Fe2O3(s) + 2Al(s) → 2Fe(s) + Al2O3(s) The reaction of 5.00g Fe2O3 with excess Al(s) evolves 26.6 kJ of energy in the form of heat. Calculate the enthalpy change per mole of Fe2O3 reacted.
The highly exothermic thermite reaction, in which aluminum reduces iron (III) oxide to elemental iron, has been used by railroad repair crews to weld rails together. 2Al(s) + Fe2O3(s) 2Fe(s) + Al2O3(s) AH = -850 kJ What mass of iron is formed when 725 kJ of heat are released?
The highly exothermic thermite reaction, in which aluminum reduces iron(III) oxide to elemental iron, has been used by railroad repair crews to weld rails together. 2Al(s) + Fe2O3(s) - 2Fe(s) + Al2O3(s) AH=-850 kJ What mass of iron is formed when 725 kJ of heat are released?
In the thermite reaction, iron (III) oxide is reduced by aluminum to give molten iron, Fe2O3 (s) + 2 Al (s) --> 2 Fe (l) + Al2O3 (s) If you begin with 10.0 g of Fe2O3 and 20.0 g Al, Which reactant is limiting? What mass of Fe can be produced? What mass of the excess reactant remains after the limiting reactant is consumed? Set up an amounts table for this problem.