Iodomethane (CH 3 I) is a commonly used reagent in organic chemistry . When used properly, this reagent allows chemists to introduce methyl groups in many different useful applications. The chemical does pose a risk as a carcinogen, possibly owing to iodomethane’s ability to react with portions of the DNA strand (if they were to come in contact). Consider the following hypothetical initial rates data: [DNA] 0 ( μ mol/L) [CH 3 I] 0 ( μ mol/L) Initial Rate ( μ mol/L·s) 0.100 0.100 3.20 × 10 −4 0.100 0.200 6.40 × 10 −4 0.200 0.200 1.28 × 10 −3 Which of the following could be a possible mechanism to explain the initial rate data? Mechanism I DNA+CH 3 I → DNA — CH 3 + + I − Mechanism II CH 3 I → CH 3 + + I − S l o w DNA+CH 3 + → DNA — CH 3 + F a s t
Iodomethane (CH 3 I) is a commonly used reagent in organic chemistry . When used properly, this reagent allows chemists to introduce methyl groups in many different useful applications. The chemical does pose a risk as a carcinogen, possibly owing to iodomethane’s ability to react with portions of the DNA strand (if they were to come in contact). Consider the following hypothetical initial rates data: [DNA] 0 ( μ mol/L) [CH 3 I] 0 ( μ mol/L) Initial Rate ( μ mol/L·s) 0.100 0.100 3.20 × 10 −4 0.100 0.200 6.40 × 10 −4 0.200 0.200 1.28 × 10 −3 Which of the following could be a possible mechanism to explain the initial rate data? Mechanism I DNA+CH 3 I → DNA — CH 3 + + I − Mechanism II CH 3 I → CH 3 + + I − S l o w DNA+CH 3 + → DNA — CH 3 + F a s t
Solution Summary: The author explains how the rate of a chemical reaction depends on the concentration of reactants.
Iodomethane (CH3I) is a commonly used reagent in organic chemistry. When used properly, this reagent allows chemists to introduce methyl groups in many different useful applications. The chemical does pose a risk as a carcinogen, possibly owing to iodomethane’s ability to react with portions of the DNA strand (if they were to come in contact). Consider the following hypothetical initial rates data:
[DNA]0
(μ mol/L)
[CH3I]0
(μ mol/L)
Initial Rate (μmol/L·s)
0.100
0.100
3.20 × 10−4
0.100
0.200
6.40 × 10−4
0.200
0.200
1.28 × 10−3
Which of the following could be a possible mechanism to explain the initial rate data?
Mechanism
I
DNA+CH
3
I
→
DNA
—
CH
3
+
+
I
−
Mechanism
II
CH
3
I
→
CH
3
+
+
I
−
S
l
o
w
DNA+CH
3
+
→
DNA
—
CH
3
+
F
a
s
t
Definition Definition Transformation of a chemical species into another chemical species. A chemical reaction consists of breaking existing bonds and forming new ones by changing the position of electrons. These reactions are best explained using a chemical equation.
Using the equation below, what is the rate of this reaction if the rate of disappearance of H2 is 0.44 M/sec?
H2 + Br2 → 2HBr
2Fe3+(aq) + Sn2+(aq) □ 2Fe²+(aq) + Sn 4+ (aq)
If the change in Sn²+ concentration is 0.0010M in 38.5 seconds, what is the rate of disappearance of
Sn²+?
For a neutral hydrogen atom with an electron in the n = 4 state, how many different energies
are possible when a photon is emitted?
4
3
2
1
There are infinite possibilities
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