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APPLY Experiment 17: Grignard Reaction Two Questions - Please answer the following questions. Limited partial credit will be given for the questions. 1) Below are the \( { }^{1} \mathrm{H} \) NMR spectrum of triphenylmethanol, benzophenone, and bromobenzene. Identify the compound corresponding to each \( { }^{1} \mathrm{H} \) NMR spectrum and draw the structure next to the \( { }^{1} \mathrm{H} \) NMR spectrum. Assign ALL peaks in each of the three \( { }^{1} \mathrm{H} \) NMR spectra. Hint: Conjugated systems including an electronegative atom will cause a more downfield shift of ring protons in \( { }^{1} \mathrm{H} \) NMR.

          APPLY Experiment 17: Grignard Reaction Two
Questions - Please answer the following questions. Limited partial credit will be given for the questions.
1) Below are the \( { }^{1} \mathrm{H} \) NMR spectrum of triphenylmethanol, benzophenone, and bromobenzene. Identify the compound corresponding to each \( { }^{1} \mathrm{H} \) NMR spectrum and draw the structure next to the \( { }^{1} \mathrm{H} \) NMR spectrum. Assign ALL peaks in each of the three \( { }^{1} \mathrm{H} \) NMR spectra. Hint: Conjugated systems including an electronegative atom will cause a more downfield shift of ring protons in \( { }^{1} \mathrm{H} \) NMR.

APPLY Experiment 17: Grignard Reaction Two
Questions - Please answer the following questions. Limited partial credit will be given for the questions.
1) Below are the ^1H NMR spectrum of triphenylmethanol, benzophenone, and bromobenzene. Identify the compound corresponding to each ^1H NMR spectrum and draw the structure next to the ^1H NMR spectrum. Assign ALL peaks in each of the three ^1H NMR spectra. Hint: Conjugated systems including an electronegative atom will cause a more downfield shift of ring protons in ^1H NMR.

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