Complete missing information in table below. The total mass of the atmosphere is about 5.15 x 1016 kg. Create an appropriate caption for the table, and select the proper placement (Above? Below? To the right?). Ensure that your caption begins with "Table 1:". Atmospheric gas % of atmosphere Total mass (kg) Nitrogen (N2) 78.09 Oxygen (O2) Argon (Ar) Other 0.93 0.03 During the summer months, residents of the Ottawa region often complain about the humidity. On those humid days the air feels heavier. Is humid air actually heavier than dry air? The following few steps will help you answer this question. Table 1 (above) presents gaseous composition of an air parcel with no water vapour. Table 2 presents the gaseous composition of a hypothetical air parcel, which contains 4% of water vapour. Table 2. Composition of an air parcel that contains 4% water vapour. Atmospheric gas Nitrogen (N2) Oxygen (O2) Argon (Ar) Water vapour % of atmosphere 75 20 1 4 "Other gases" have been omitted and because values have been rounded up, the relative change in percentage is only noticeable in the nitrogen and the oxygen. Since water vapour (H2O) makes up 4% of the air parcel, the relative abundance of other gases diminishes by 4% (Nitrogen 3% and Oxygen 1%). Why does argon (Ar) remain at 1%?
Complete missing information in table below. The total mass of the atmosphere is about 5.15 x 1016 kg. Create an appropriate caption for the table, and select the proper placement (Above? Below? To the right?). Ensure that your caption begins with "Table 1:". Atmospheric gas % of atmosphere Total mass (kg) Nitrogen (N2) 78.09 Oxygen (O2) Argon (Ar) Other 0.93 0.03 During the summer months, residents of the Ottawa region often complain about the humidity. On those humid days the air feels heavier. Is humid air actually heavier than dry air? The following few steps will help you answer this question. Table 1 (above) presents gaseous composition of an air parcel with no water vapour. Table 2 presents the gaseous composition of a hypothetical air parcel, which contains 4% of water vapour. Table 2. Composition of an air parcel that contains 4% water vapour. Atmospheric gas Nitrogen (N2) Oxygen (O2) Argon (Ar) Water vapour % of atmosphere 75 20 1 4 "Other gases" have been omitted and because values have been rounded up, the relative change in percentage is only noticeable in the nitrogen and the oxygen. Since water vapour (H2O) makes up 4% of the air parcel, the relative abundance of other gases diminishes by 4% (Nitrogen 3% and Oxygen 1%). Why does argon (Ar) remain at 1%?
Applications and Investigations in Earth Science (9th Edition)
9th Edition
ISBN:9780134746241
Author:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Publisher:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Chapter1: The Study Of Minerals
Section: Chapter Questions
Problem 1LR
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Question
Answer both questions please
Transcribed Image Text:Complete missing information in table below. The total mass of the
atmosphere is about 5.15 x 1016 kg. Create an appropriate caption for the
table, and select the proper placement (Above? Below? To the right?).
Ensure that your caption begins with "Table 1:".
Atmospheric
gas
% of atmosphere
Total mass (kg)
Nitrogen (N2)
78.09
Oxygen (O2)
Argon (Ar)
Other
0.93
0.03
During the summer months, residents of the Ottawa region often complain
about the humidity. On those humid days the air feels heavier. Is humid air
actually heavier than dry air? The following few steps will help you answer
this question. Table 1 (above) presents gaseous composition of an air parcel
with no water vapour. Table 2 presents the gaseous composition of a
hypothetical air parcel, which contains 4% of water vapour.
Table 2. Composition of an air parcel that contains 4%
water vapour.
Atmospheric gas
Nitrogen (N2)
Oxygen (O2)
Argon (Ar)
Water vapour
% of atmosphere
75
20
1
4
"Other gases" have been omitted and because values have been rounded
up, the relative change in percentage is only noticeable in the nitrogen
and the oxygen. Since water vapour (H2O) makes up 4% of the air parcel,
the relative abundance of other gases diminishes by 4% (Nitrogen 3%
and Oxygen 1%). Why does argon (Ar) remain at 1%?
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