Practice for my chem lab quiz. Please help! WILL RATELIFESAVER!!!!!!! 1. Calcula

Question

Practice for my chem lab quiz. Please help! WILL RATELIFESAVER!!!!!!! 1. Calculate the mass of trans-cinnamaldehyde(3-phenyl-2-propenal) required to have 1.76 mL of the compound forthe reaction. The density of trans-cinnamaldehyde is 1.050g/mL 2. Which of the following contains an ester functionalgroup? 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above Practice for my chem lab quiz. Please help! WILL RATELIFESAVER!!!!!!! 1. Calculate the mass of trans-cinnamaldehyde(3-phenyl-2-propenal) required to have 1.76 mL of the compound forthe reaction. The density of trans-cinnamaldehyde is 1.050g/mL 2. Which of the following contains an ester functionalgroup? 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above

Explanation / Answer

1) The mass of the trans-cinnamaldehyde =volume * density                                                                 = 1.76 mL * 1.050g/mL                                                                 = 1.848g 2. Which of the following contains an ester functionalgroup? 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 2. Which of the following contains an ester functionalgroup? 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 3.What type of electromagnetic radiation is used in NMR? x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above x-ray ultraviolet infrared none of the above 4. Which product should have the highest melting point whenreacted with acetone? 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above x-ray ultraviolet infrared none of the above 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 5. Which "type" of carbon should have the greatest chemicalshift? Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde 4-methoxybenzaldehyde trans-cinnamaldehyde benzaldehyde 4-methylbenzaldehyde Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen 6. In proton NMR, the term "coupling refers to how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen Primary alkyl carbon Alkene carbon Ester carbonyl carbon Carbon single-bonded to oxygen how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above how carbon atoms affect the signal generated bythe protons attached to it how different protons on a single carbon atominteract with one another how nearby proton sets affect the signalgenerated by a given set of protons none of the above 4-methylcyclohexanone 4-methylbenzaldehyde 4-methyloxybenzaldehyde none of the above

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