The acids are to be identified from the given structural formula. The explanation of the fact that the given compounds behave as acid whereas NaOH and KOH behaves as base is to be stated. Concept introduction: The acid in which acidic protons are attached to oxygen atom is known as oxyacid. If a compound contains H + ion, then it is an acid whereas if a compound contain OH − ion, then it is a base. To identify : The acids from the given structural formula of SO ( OH ) 2 ; the reason that SO ( OH ) 2 behaves as acid whereas NaOH and KOH behaves as base.
The acids are to be identified from the given structural formula. The explanation of the fact that the given compounds behave as acid whereas NaOH and KOH behaves as base is to be stated. Concept introduction: The acid in which acidic protons are attached to oxygen atom is known as oxyacid. If a compound contains H + ion, then it is an acid whereas if a compound contain OH − ion, then it is a base. To identify : The acids from the given structural formula of SO ( OH ) 2 ; the reason that SO ( OH ) 2 behaves as acid whereas NaOH and KOH behaves as base.
Solution Summary: The author explains that the acid in which acidic protons are attached to oxygen atom is known as oxyacid.
Interpretation: The acids are to be identified from the given structural formula. The explanation of the fact that the given compounds behave as acid whereas
NaOH and
KOH behaves as base is to be stated.
Concept introduction: The acid in which acidic protons are attached to oxygen atom is known as oxyacid.
If a compound contains
H+ ion, then it is an acid whereas if a compound contain
OH− ion, then it is a base.
To identify: The acids from the given structural formula of
SO(OH)2; the reason that
SO(OH)2 behaves as acid whereas
NaOH and
KOH behaves as base.
(b)
Interpretation Introduction
Interpretation: The acids are to be identified from the given structural formula. The explanation of the fact that the given compounds behave as acid whereas
NaOH and
KOH behaves as base is to be stated.
Concept introduction: The acid in which acidic protons are attached to oxygen atom is known as oxyacid.
If a compound contains
H+ ion, then it is an acid whereas if a compound contain
OH− ion, then it is a base.
To identify: The acids from the given structural formula of
ClO2(OH); the reason that
ClO2(OH) behaves as acid whereas
NaOH and
KOH behaves as base.
(c)
Interpretation Introduction
Interpretation: The acids are to be identified from the given structural formula. The explanation of the fact that the given compounds behave as acid whereas
NaOH and
KOH behaves as base is to be stated.
Concept introduction: The acid in which acidic protons are attached to oxygen atom is known as oxyacid.
If a compound contains
H+ ion, then it is an acid whereas if a compound contain
OH− ion, then it is a base.
To identify: The acids from the given structural formula of
HPO(OH)2; the reason that
HPO(OH)2 behaves as acid whereas
NaOH and
KOH behaves as base.
The reaction for obtaining NO2 from NO and O2 has the rate equation: v = k[NO]2[O2]. Indicate which of the following options is correct.(A). This rate equation is inconsistent with the reaction consisting of a single trimolecular step.(B). Since the overall order is 3, the reaction must necessarily have some trimolecular step in its mechanism.(C). A two-step mechanism: 1) NO + NO ⇄ N2O2 (fast); 2) N2O2 + O2 → NO2 + NO2 (slow).(D). The mechanism must necessarily consist of three unimolecular elementary steps with very similar rate constants.
a. What is the eluent used in the column chromatography here (a “silica plug filtration” is essentially a very short column)?
b. The spectroscopy of compound 5b is described in the second half of this excerpt, including 1H-NMR and 13C-NMR (which you will learn about in CHEM 2412L), MS (which you will learn about later in CHEM 2411L) and IR. One of the IR signals is at 3530 cm-1. What functional group does this indicate might be present in compound 5b?
Steps and explanations. Also provide, if possible, ways to adress this kind of problems in general.
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