Fe*3 + HSCN <==> Fe SCN*2 + H* A student studying the Fe*3 - HSCN equilibrium, put into a test tube 10.00 ml of 2.00 x 103 M Fe(NO3)3 and 10.00 ml of 2.00 x 103 M HSCN. The H* in the resulting solution was maintained at 0.500. By spectrophotometric analysis of the equilibrium solution, the equilibrium concentration of FeSCN*2 was found to be 1.00 x 104M. 1. Calculate the initial molarity of the Fe*3 after E dilution, but before the reaction occurred. i.e. [Fe*]o.
Fe*3 + HSCN <==> Fe SCN*2 + H* A student studying the Fe*3 - HSCN equilibrium, put into a test tube 10.00 ml of 2.00 x 103 M Fe(NO3)3 and 10.00 ml of 2.00 x 103 M HSCN. The H* in the resulting solution was maintained at 0.500. By spectrophotometric analysis of the equilibrium solution, the equilibrium concentration of FeSCN*2 was found to be 1.00 x 104M. 1. Calculate the initial molarity of the Fe*3 after E dilution, but before the reaction occurred. i.e. [Fe*]o.
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![Fe+3 + HSCN <==>
Fe SCN+2 + H*
A student studying the Fe*3 - HSCN equilibrium, put into a test tube 10.00 ml of
2.00 x 103 M Fe(NO3)3 and 10.00 ml of 2.00 x 103 M HSCN. The H* in the resulting
solution was maintained at 0.500. By spectrophotometric analysis of the equilibrium
solution, the equilibrium concentration of FeSCN*2 was found to be 1.00 x 10 M.
1.
Calculate the initial molarity of the Fe*3 after
dilution, but before the reaction occurred. i.e. [Fe*]o.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffb61f129-4f59-4af9-aedb-1d7e1dad227c%2F01be5f66-e8b1-458e-8c49-d9a44527e98c%2F1ot88ry_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Fe+3 + HSCN <==>
Fe SCN+2 + H*
A student studying the Fe*3 - HSCN equilibrium, put into a test tube 10.00 ml of
2.00 x 103 M Fe(NO3)3 and 10.00 ml of 2.00 x 103 M HSCN. The H* in the resulting
solution was maintained at 0.500. By spectrophotometric analysis of the equilibrium
solution, the equilibrium concentration of FeSCN*2 was found to be 1.00 x 10 M.
1.
Calculate the initial molarity of the Fe*3 after
dilution, but before the reaction occurred. i.e. [Fe*]o.
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