2. Each part per million (ppm) concentration of CO2 in the atmosphere is the equivalent to a global atmospheric mass of about 2.13 billion metric tons of CO2.In 1800, around the time of the Industrial Revolution, the atmospheric concentration of CO2 in the atmosphere was about 290 ppm. In June of this year 2020, there were around 420 ppm of CO2 in the atmosphere. How many billion metric tons of CO2 have been added to the atmosphere between 1800 and June of 2020? 3. In 1966, the atmospheric concentration of CO2 was 351 ppm. In 2014, the atmospheric concentration of CO2 was 450 ppm. Compute for the amount of increase in concentration of CO2 in ppm and in metric tons. Each ppm is equivalent to 2.13 billion metric tons of CO2.
2. Each part per million (ppm) concentration of CO2 in the atmosphere is the equivalent to a global atmospheric mass of about 2.13 billion metric tons of CO2.In 1800, around the time of the Industrial Revolution, the atmospheric concentration of CO2 in the atmosphere was about 290 ppm. In June of this year 2020, there were around 420 ppm of CO2 in the atmosphere. How many billion metric tons of CO2 have been added to the atmosphere between 1800 and June of 2020? 3. In 1966, the atmospheric concentration of CO2 was 351 ppm. In 2014, the atmospheric concentration of CO2 was 450 ppm. Compute for the amount of increase in concentration of CO2 in ppm and in metric tons. Each ppm is equivalent to 2.13 billion metric tons of CO2.
Chapter20: The Representative Elements
Section: Chapter Questions
Problem 102CP
Related questions
Question
Answer number 2 and 3
Choices for number 2
A. 2.8968x1012billion metric tons of CO2
B. 2.8968x1013 metric tons of CO2
C. 2.8968x1014billion metric tons of CO2
D. 2.8968x1011 metric tons of CO2
E. 289.68 metric tons of CO2
F. 28.968 billion metric tons of CO2
Choices for number 3
A. 79 ppm and 168.27 x 1011metric tons respectively
B. 79 ppm and 1.6827 x 1011metric tons respectively
C. 79 ppm and 16.827 billion metric tons respectively
D. 78 ppm and 16.827 billion metric tons respectively
E. 80 ppm and 1.6827 x 1011metric tons respectively
![2. Each part per million (ppm) concentration of CO2 in the atmosphere is the equivalent to a
global atmospheric mass of about 2.13 billion metric tons of CO2.In 1800, around the time of
the Industrial Revolution, the atmospheric concentration of CO2 in the atmosphere was
about 290 ppm. In June of this year 2020, there were around 420 ppm of CO2 in the
atmosphere.
How many billion metric tons of CO2 have been added to the atmosphere between
1800 and June of 2020?
3. In 1966, the atmospheric concentration of CO2 was 351 ppm. In 2014, the atmospheric
concentration of CO2 was 450 ppm. Compute for the amount of increase in concentration of
CO2 in ppm and in metric tons. Each ppm is equivalent to 2.13 billion metric tons of CO2.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F546041f1-69a8-4594-8453-4195b9d5459a%2F3150e3cc-0945-4650-b0e0-2ca060e3d3e6%2Frlrizw_processed.png&w=3840&q=75)
Transcribed Image Text:2. Each part per million (ppm) concentration of CO2 in the atmosphere is the equivalent to a
global atmospheric mass of about 2.13 billion metric tons of CO2.In 1800, around the time of
the Industrial Revolution, the atmospheric concentration of CO2 in the atmosphere was
about 290 ppm. In June of this year 2020, there were around 420 ppm of CO2 in the
atmosphere.
How many billion metric tons of CO2 have been added to the atmosphere between
1800 and June of 2020?
3. In 1966, the atmospheric concentration of CO2 was 351 ppm. In 2014, the atmospheric
concentration of CO2 was 450 ppm. Compute for the amount of increase in concentration of
CO2 in ppm and in metric tons. Each ppm is equivalent to 2.13 billion metric tons of CO2.
![The production of CO2 emissions worldwide is listed in the table below, indicating that from
1966 to 2006, 225 billion metric tons of CO2 were emitted. However, the atmospheric concentration
of CO2 did not increase by 225 billion metric tons. It only increased by 168.27 billion metric tons.
How do you account for the difference between CO2 emissions and the change in atmospheric
concentration of CO2? Where did the excess CO2 go? List the possible sinks that may have absorbed
some of this CO2.
Source of carbon dioxide
Weight of carbon
dioxide (billion
metric tons)
Coal
86
Oil
98
Natural gas
36
Others
total
225
Compute for the amount of increase in concentration of CO2 in ppm and in metric tons.
Year
Atmospheric CO2
concentration
351
Weight of CO2 (in billion
metric tons)
1966
747.63
ppm
ppm
2014
450
958.50
amount of increase from 1966 to 2014](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F546041f1-69a8-4594-8453-4195b9d5459a%2F3150e3cc-0945-4650-b0e0-2ca060e3d3e6%2Fwmka4dn_processed.png&w=3840&q=75)
Transcribed Image Text:The production of CO2 emissions worldwide is listed in the table below, indicating that from
1966 to 2006, 225 billion metric tons of CO2 were emitted. However, the atmospheric concentration
of CO2 did not increase by 225 billion metric tons. It only increased by 168.27 billion metric tons.
How do you account for the difference between CO2 emissions and the change in atmospheric
concentration of CO2? Where did the excess CO2 go? List the possible sinks that may have absorbed
some of this CO2.
Source of carbon dioxide
Weight of carbon
dioxide (billion
metric tons)
Coal
86
Oil
98
Natural gas
36
Others
total
225
Compute for the amount of increase in concentration of CO2 in ppm and in metric tons.
Year
Atmospheric CO2
concentration
351
Weight of CO2 (in billion
metric tons)
1966
747.63
ppm
ppm
2014
450
958.50
amount of increase from 1966 to 2014
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