How many constitutional isomers of C4H9Br are possible? a) Five b) One c) Four d) Three e) Two
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Answer:
To determine the number of constitutional isomers of C4H9Br, we can generate different structures by rearranging the atoms. The molecular formula C4H9Br implies a carbon chain with four carbon atoms, and one bromine atom.
Here are the constitutional isomers for C4H9Br:
1. **n-Butyl Bromide**: This is the straight-chain isomer where the bromine atom is attached to the end carbon atom.
2. **Isobutyl Bromide**: This is an isomer with a branched chain. The bromine atom is attached to one of the middle carbon atoms in the chain.
3. **sec-Butyl Bromide**: Another branched isomer where the bromine atom is attached to one of the middle carbon atoms but in a different position compared to isobutyl bromide.
4. **tert-Butyl Bromide**: This isomer has a highly branched structure where the bromine atom is attached to a carbon atom that is part of a tertiary (3°) carbon center.
So, there are four constitutional isomers of C4H9Br. Therefore, the correct answer is (c) Four.
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Base: Soap, oven cleaner, ammonia
The bases are cleaners, and the acids are fruits, bases have a bitter taste, and acids have a sour taste. Hope this helps!
Sulfuric Acid
Hydroflouric Acid
Phosphoric Acid
Three bases
Sodium Hydroxide
Calcium Hydroxide
Potassium Hydroxide
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Hydroflouric Acid is also used in a different type of alkalation unit which is currently being phased out due to Hydroflouric Acid dangerous nature.
Phosphoric Acid is used in industrial cooling towers to aid in controlling scale inside piping in cooling water systems.
Sodium Hydroxide is also used in crude oil refinery settings to aid in neutralizing low pH systems in the refinery process .
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Answer:homogeneous mixture
Explanation:
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Answer:
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Answer:
The correct option is: salinity increases
Explanation:
Ocean is a large water body that is a division of the World Ocean. An ocean is divided into various vertical zones based upon the physical and biological conditions.
The halocline zone is characterized by a rapid increase in the salinity with the increase in the depth. Thus resulting in decrease in the temperature of maximum density with the increase in salinity.
Answer:salinity increases
Explanation:
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Answer:
Molarity of NaOH solution is 1.009 M
Explanation:
Molar mass of HCl is 36.46 g/mol
Number moles = (mass)/(molar mass)
So, 0.8115 g of HCl = HCl = 0.02226 moles HCl
1 mol of NaOH neutralizes 1 mol of HCl.
So, if molarity of NaOH solution is S(M) then moles of NaOH required to reach endpoint is
So,
or, S = 1.009
So, molarity of NaOH solution is 1.009 M