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17 Nov 2019
Ring strain 1
Ring strain and AH%omb write and balance the combustion reaction of cyclobutane in the space below (you may use the empirical formula for cyclobutane in the chemical equation, which is C4Hs.) 2) What are the products of the reaction, when cyclopropane burns? When cycloheptane burns?? 3) Do the products of the cyclopropane, cycloheptane, and cyclobutane combustion reactions have different potential energies (assuming equal amounts of products are formed from each reaction.) Explain. 4) Using the given data table (pg 3), record the following information below: AH comb for cyclopropane AH for cyclobutane: The AH oomb s "the heat released when 1 mole of a substance burns in the presence of oxygen", but can also be defined as "the difference in potential energy between the starting materials (reactants) and the products. The products of each combustion have the same potential energy (since they are, after the same products!) However, each combustion reaction releases a different amount of energy (according to the AH values.) Knowing this allows us to decide comb which reactants (which c are higher in potential energy. the comb of the burning of cyclopropane with the AH comb for the combustion of cyclobutane. Based on that data, which molecule has higher overall potential energy? Defend your answer.
Ring strain 1
Ring strain and AH%omb write and balance the combustion reaction of cyclobutane in the space below (you may use the empirical formula for cyclobutane in the chemical equation, which is C4Hs.) 2) What are the products of the reaction, when cyclopropane burns? When cycloheptane burns?? 3) Do the products of the cyclopropane, cycloheptane, and cyclobutane combustion reactions have different potential energies (assuming equal amounts of products are formed from each reaction.) Explain. 4) Using the given data table (pg 3), record the following information below: AH comb for cyclopropane AH for cyclobutane: The AH oomb s "the heat released when 1 mole of a substance burns in the presence of oxygen", but can also be defined as "the difference in potential energy between the starting materials (reactants) and the products. The products of each combustion have the same potential energy (since they are, after the same products!) However, each combustion reaction releases a different amount of energy (according to the AH values.) Knowing this allows us to decide comb which reactants (which c are higher in potential energy. the comb of the burning of cyclopropane with the AH comb for the combustion of cyclobutane. Based on that data, which molecule has higher overall potential energy? Defend your answer.
Bunny GreenfelderLv2
22 Jun 2019