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Chapter 20: Problem 1

Which of the following atmospheric gases is present in highest concentration in dry air? (a) \(\mathrm{N}_{2} \mathrm{O}\) (b) \(\mathrm{CH}_{4}\) (c) \(O_{3}\) (d) \(\mathrm{CO}\)

Short Answer

Expert verified
Methane ( CH_{4} ) has the highest concentration among the listed gases in dry air.

Step by step solution

01

Identify All Options

First, let's identify the gases listed in the options: (a) \(_2O\,(Nitrous\, Oxide)\) (b) \(CH_4\,(Methane)\) (c) \(O_3\,(Ozone)\) (d) \(CO\,(Carbon\, Monoxide)\).\
02

Understanding Composition of Dry Air

The major components of dry air by volume are approximately 78% \(N_2\) (Nitrogen), 21% \(O_2\) (Oxygen), 0.93% Argon, and 0.04% \(CO_2\). The gases listed in the options (Nitrous Oxide, Methane, Ozone, and Carbon Monoxide) are present in trace amounts compared to these major components.
03

Evaluating Trace Gases

From the options provided, none of the trace gases (i.e., Nitrous Oxide, Methane, Ozone, and Carbon Monoxide) come close to the concentrations of the major gases like Nitrogen or even minor gases such as Argon in dry air.
04

Eliminating Options

Since all options involve gases that are found in trace amounts, they must be compared among themselves. Typically, \(CH_4\) (Methane) is more prevalent than Nitrous Oxide, Ozone, and Carbon Monoxide in atmospheric concentrations of trace gases.
05

Choose the Answer

Given that Methane is generally more present than the other options in the atmosphere, we conclude that \(\text{CH}_4\) is the gas present in the highest concentration among those listed.

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Trace Gases
Trace gases are those present in small amounts in the Earth's atmosphere. Though they make up less than 1% of the total atmospheric composition, they have significant effects on the environment and climate. Most of the atmosphere is made up of nitrogen, oxygen, and argon. The trace gases, which are found in much smaller concentrations, include carbon dioxide, methane, nitrous oxide, ozone, and more.
These gases can be:
  • Natural: Such as ozone, which forms naturally in the stratosphere.
  • Anthropogenic: Like some carbon monoxide and methane, often resulting from human activities.
Despite their low concentrations, trace gases can influence atmospheric chemistry and dynamics. They participate in processes like the greenhouse effect, where they trap heat and affect Earth's temperature. Understanding their roles and interactions is crucial for studying climate change and developing environmental policies.
Methane
Methane (\(CH_4\)) is a colorless, odorless gas that is a significant trace gas in the atmosphere. It is the simplest hydrocarbon and a crucial component of natural gas.
Methane sources can be divided into two main categories:
  • Natural Sources: Wetlands, termites, and oceanic activity.
  • Anthropogenic Sources: Agriculture (particularly rice paddies and livestock), landfills, and fossil fuel extraction.
Methane is more effective than carbon dioxide at trapping heat in the atmosphere, contributing to global warming. However, it is present in much lower concentrations compared to major gases in dry air, like nitrogen and oxygen.
Its atmospheric concentration is about 1,800 parts per billion (ppb), which is much higher than some other trace gases like ozone. This makes methane a crucial player when considering atmospheric trace gases. Observing and managing methane emissions is critical to addressing climate change.
Dry Air
Dry air refers to the composition of air that has negligible amounts of water vapor. Its composition consists primarily of gases like nitrogen, oxygen, and argon, making up nearly 99.9% of its volume.
The primary components of dry air include:
  • \(N_2\) (Nitrogen) - approximately 78%.
  • \(O_2\) (Oxygen) - about 21%.
  • Argon - roughly 0.93%.
  • Carbon dioxide - around 0.04%.
Other gases are present in trace amounts, adding up to less than 1% of the total makeup. These include methane (\(CH_4\)), nitrous oxide, ozone, and carbon monoxide.
The absence of water vapor in dry air is significant when studying weather patterns and chemical reactions in the atmosphere. Understanding dry air composition is essential to fields such as meteorology and environmental science, providing insights into both weather prediction and climate studies.

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Most popular questions from this chapter

The enthalpy of combustion of isooctane \(\left(\mathrm{C}_{8} \mathrm{H}_{18}\right)\) one of the many hydrocarbons in gasoline, is \(5.45 \times 10^{3} \mathrm{kJ} / \mathrm{mol} .\) Calculate the enthalpy change per gram of isooctane and per liter of isooctane \((d=0.688 \mathrm{g} / \mathrm{mL})\)

Imagine the following experiment: You have a large graduated cylinder containing 100. mL of liquid water at \(0^{\circ} \mathrm{C}\). You drop an ice cube with a volume of \(25 \mathrm{cm}^{3}\) into the cylinder. Ice has a density of \(0.92 \mathrm{g} / \mathrm{cm}^{3},\) less than the density of liquid water, so it floats with \(92 \%\) being under water. (a) To what level will the water in the graduated cylinder rise after adding the ice? (b) Allow the ice to melt. What volume will now be occupied by the liquid water? (One consequence of global warming will be a rise in sea level as ice in the northern and southern regions of the planet melts. However, the effect relates only to melting of ice on land. Melting of floating ice will have no effect on sea levels.

Microwave ovens are highly efficient, compared to other cooking appliances. A 1100 -watt microwave oven, running at full power for 90 seconds, will raise the temperature of 1 cup of water \((225 \mathrm{mL})\) from \(20^{\circ} \mathrm{C}\) to \(67^{\circ} \mathrm{C} .\) As a rough measure of the efficiency of the microwave oven, compare its energy consumption with the energy required to raise the water temperature.

Assume the average \(\mathrm{CO}_{2}\) concentration in the atmosphere is 406 ppm (as of January 2017 ). The actual concentration of \(\mathrm{CO}_{2}\) at different sites will vary. Speculate on whether the concentration of \(\mathrm{CO}_{2}\) would be expected to be higher, lower, or the same as this average value in a typical large city.

In \(2005,\) global \(\mathrm{SO}_{2}\) emission was estimated to be \(12.83 \mathrm{Gg}\) (gigagrams). According to the \(\mathrm{EPA}, 71 \%\) of \(\mathrm{SO}_{2}\) emissions into the atmosphere is from coal-fired power plants. How much coal (in metric tons) must have been burned to produce this much \(\mathrm{SO}_{2}\) assuming that coal is \(2.0 \%\) sulfur?
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