Iron (III) oxide can react with aluminum metal to produce aluminum oxide and iron metal This...
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.
Be sure to give your answers with the correct number of significant figures. 1. Over the years, the thermite reaction has been used for welding railroad rails, in incendiary bombs, and to ignite solid-fuel rocket motors. The reaction is: Fe20. (s) + 2Al(s) – 2Fe (1) + Al O2 (s) a. How many moles of iron (III) oxide must react in order to produce 3.5 mol of Fe? (1.25pts) b. What mass of iron (III) oxide reacted in order to...
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...
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
Write a balanced chemical equation based on the following description: the reaction of powdered aluminum and powdered iron(III) oxide produces solid aluminum oxide and liquid iron metal
Before arc welding was developed, a displacement reaction involving aluminum and iron(III) oxide was commonly used to produce molten iron (the thermite process). This reaction was used, for example, to connect sections of iron railroad track. Calculate the mass of molten iron produced when 1.52 kg of aluminum reacts with 21.6 mol of iron(III) oxide. Enter your answer in scientific notation.
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?...
conversion factors needed: molar masses of O, and Ho, and molar ratio between Ozand Ho. Molar mass Oz: 2 x 16.00 g/mol = 32.00 g/mol Molar mass HO: (2x 1,01 g/mol)*16.00 /mol 7HO-1.5 80xmor 2 mol No1802 1,0 52.00 gomolo 1 .689 = 1.7 HO Now let's try some problems Be sure to give your answers with the correct number of significant figures. 1. Over the years, the thermite reaction has been used for welding railroad rails, in incendiary bombs,...
For the following reaction, 55,7 grams of iron(III)oxide are allowed to react with 17.3 grams of aluminum iron II)oxides) aluminum's) - aluminum oxide(s) + iron(s) grams What is the maximum amount of aluminum oxide that can be formed? What is the FORMULA for the limiting reagent? grams What amount of the excess reagent remains after the reaction is complete? SA Retry Entire Group more group attempts remaining RT F G H
Over the years, the thermite reaction has been used for welding railroad rails, in incendiary bombs, and to ignite solid-fuel rocket motors. The reaction is Fe, Os() + 2Al() + 2Fe(l) + Al, Os(-) a What mass of iron(III)oxide must be used to produce 15.7 g iton? Mass- b. What mass of aluminum must be used to produce 15.7 g iron? Mass- c. What is the maximum mass of aluminum oxide that could be produced? Mass- Submit Answer Try Another...