The major product that results when (2R,3S)-2-chloro-3-phenylbutane is treated with sodium methoxide in methanol is (R)-3-phenyl-1-butene, which is option D.
When (2R,3S)-2-chloro-3-phenylbutane reacts with sodium methoxide (NaOMe) in methanol (MeOH), an elimination reaction known as the E2 reaction takes place. In this reaction, the chloride ion (Cl-) acts as a leaving group, and the base (methoxide ion, CH3O-) removes a proton from the adjacent carbon, resulting in the formation of a carbon-carbon double bond and the loss of a hydrogen chloride molecule.
The stereochemistry of the starting material is important in determining the stereochemistry of the product. In the given starting material, the chlorine atom and the phenyl group are on opposite sides of the molecule, indicating that they are in the trans configuration. As a result, the chlorine and the hydrogen atom that are eliminated in the reaction must be anti-periplanar, which means they must be in a staggered arrangement to allow for the most favorable overlap of the orbitals involved in the reaction.
The elimination occurs through a concerted mechanism, where the hydrogen and chlorine atoms are removed simultaneously, and the double bond is formed. The result is the formation of (R)-3-phenyl-1-butene as the major product. The (R) configuration refers to the absolute configuration of the chiral center that was present in the starting material.
Therefore, the correct answer is option D, (R)-3-phenyl-1-butene, as the major product obtained in the reaction between (2R,3S)-2-chloro-3-phenylbutane and sodium methoxide in methanol.
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why must the n-butyl acetate product be rigorously dried prior to ir analysis.
The n-butyl acetate product must be rigorously dried prior to IR analysis to ensure accurate and reliable results.
IR (Infrared) spectroscopy is a widely used technique to analyze the chemical composition and molecular structure of organic compounds. It relies on the interaction between infrared radiation and the functional groups present in the compound. However, water molecules can interfere with the IR analysis and produce misleading or distorted spectra.
Water molecules have strong absorption bands in the IR region, which can overlap with the absorption bands of the functional groups in the n-butyl acetate product. This overlapping can lead to incorrect interpretations of the IR spectra and hinder the identification and characterization of the compound.
To avoid this interference, the n-butyl acetate product needs to be dried rigorously before IR analysis. Drying typically involves removing any residual water from the sample. This can be done through techniques such as heating under vacuum or using desiccants.
By ensuring that the n-butyl acetate product is thoroughly dried, any water-related interference in the IR spectra can be minimized or eliminated. This allows for accurate identification and analysis of the functional groups present in the compound, leading to reliable results and meaningful interpretations.
Rigorous drying of the n-butyl acetate product prior to IR analysis is necessary to eliminate any interference caused by water molecules. By removing water, the IR spectra obtained will accurately represent the functional groups present in the compound, ensuring reliable and meaningful analysis.
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How much is 1 ug.min/ml in 1 mg.h/L?
ug/min/ml stands for micrgram per min per millilitre.ug/min/ml is generally used in the field of pharmacokinetics.To generally measure the mean concentration of any drug. These parametres are highly quantitative thus the chances of error is really high.
The units in which pharmacokinetic concepts are represented are a characteristic of the words' definitions and have an impact on the results of numerical calculations.
Consistency in symbol usage would minimise errors that might occur when interpreting values presented for different terms. The specific meaning of a phrase or concept as defined can frequently be clarified by carefully considering the units associated with it.To convert 1 ug/min/ml to mg/h L, the following is the calculation:1 ug/min/ml = 60 ug/h/L1 ug/min/ml = 0.00006 mg/h/L.Thus, 1 ug/min/ml is equal to 0.00006 mg/h/L.
Therefore, the answer is 0.00006.
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If an object weighs 3.4526 g and has a volume of 23.12 mL, what is its density?
Select one:
a. 0.15 g/mL
b. 0.149 g/mL
c. 1.50 x 10^-1 g/mL
d. 0.1493 g/mL
If an object weighs 3.4526 g and has a volume of 23.12 mL, the density of the object will be 0.1493 g/mL.
Density calculationTo calculate the density of an object, you need to divide its mass by its volume. In this case, the mass of the object is 3.4526 g and its volume is 23.12 mL.
Density = Mass / Volume
Density = 3.4526 g / 23.12 mL
Calculating the density:
Density ≈ 0.1493 g/mL
In other words, the density of the object is 0.1493 g/mL.
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Which element contains atoms with an average mass of 1.79 x 1022 grams? O Ag O Kr O Sc Fe O F
The element that contains atoms with an average mass of 1.79 x 10²² grams is Kr (Krypton).
The element that contains atoms with an average mass of 1.79 x 10²² grams is Kr (Krypton).
An element is a chemical substance in which all atoms have the same number of protons. There are around 118 known elements, which are identified by their atomic numbers, which represent the number of protons in their nuclei.
Krypton (Kr) is a chemical element with the atomic number 36. It is a noble gas with a symbol of Kr. Its boiling point is around minus 243 degrees Celsius. The density of krypton is 3.749 grams per cubic centimeter.
Krypton was found by Sir William Ramsay and Morris Travers in 1898, in the residue left over after liquid air had boiled away.
It is an odorless, tasteless, colorless, and non-toxic gas that can be obtained from liquefaction of air. Krypton is often utilized in flash bulbs used in high-speed photography and sometimes in fluorescent lights.
Therefore, the element that contains atoms with an average mass of 1.79 x 10²² grams is Kr (Krypton).
Hence, the correct answer is "Kr".
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