Answer:
a mixture and solution
• a mixture and a solution
• a mixture but not a solution
• a mixture and a solution
• mixture and a solution
Explanation:
Answer:
The possible structures are ketone and aldehyde.
Explanation:
Number of double bonds of the given compound is calculated using the below formula.
![N_{db}=N_{c}+1-\frac{N_{H}+N_{Br}-N_{N}}{2}](https://tex.z-dn.net/?f=N_%7Bdb%7D%3DN_%7Bc%7D%2B1-%5Cfrac%7BN_%7BH%7D%2BN_%7BBr%7D-N_%7BN%7D%7D%7B2%7D)
=Number of double bonds
= Number of carbon atoms
= Number of hydrogen atoms
= Number of nitrogen atoms
The number of double bonds in the given formula - ![C_{4}H_{8}O](https://tex.z-dn.net/?f=C_%7B4%7DH_%7B8%7DO)
![N_{db}= 4+1-\frac{8+0-0}{2}=1](https://tex.z-dn.net/?f=N_%7Bdb%7D%3D%204%2B1-%5Cfrac%7B8%2B0-0%7D%7B2%7D%3D1)
The number of double bonds in the compound is one.
Therefore, probable structures is as follows.
(In attachment)
The structures I and III are ruled out from the probable structures because the signal in 13C-NMR appears at greater than 160 ppm.
alkene compounds I and II shows signal less than 140 ppm.
Hence, the probable structures III and IV are given as follows.
The carbonyl of structure I appear at 202 and ketone group of IV appears at 208 in 13C, which are greater than 160.
Hence, the molecular formula of the compound
having possible structure in which the signal appears at greater than 160 ppm are shown aw follows.
1,4,5 in that order couse the hypothensis is what I believe in. It should not be hard to find my control conditions after that. I will also then relate it to my hypothensis and say why it is correct or why the experiment proved my hypothensis wrong.
Answer:
Albert Einstein proposed that a beam of light is not a wave propagating through space, but a collection of discrete wave packets—photons.
Explanation:
So the right answer is the first one.