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Chapter 10: Problem 46

Record Low Atmospheric Pressure Despite the destruction from Hurricane Katrina in August \(2005,\) the lowest pressure for a hurricane in the Atlantic Ocean was measured several weeks after Katrina. Hurricane Wilma registered an atmospheric pressure of \(88.2 \mathrm{kPa}\) on October \(19,2005,\) about \(2 \mathrm{kPa}\) lower than Hurricane Katrina. What was the difference in pressure between the two hurricanes in (a) millimeters of mercury, (b) atmospheres, and (c) millibars?

Short Answer

Expert verified
Answer: The pressure differences are approximately 15.0012 mm Hg, 0.019738 atm, and 20 mbar.

Step by step solution

01

Calculate Pressure Difference in mm Hg

First, we will convert the 2 kPa pressure difference to mm Hg using the conversion factor: $$ 2\,\text{kPa} \cdot \frac{7.5006\,\text{mm Hg}}{1\,\text{kPa}} = 15.0012\,\text{mm Hg} $$ The pressure difference is approximately 15.0012 mm Hg.
02

Calculate Pressure Difference in Atmospheres

Next, we will convert the 2 kPa pressure difference to atmospheres using the conversion factor: $$ 2\,\text{kPa} \cdot \frac{0.009869\,\text{atm}}{1\,\text{kPa}} = 0.019738\,\text{atm} $$ The pressure difference is approximately 0.019738 atm.
03

Calculate Pressure Difference in Millibars

Finally, we will convert the 2 kPa pressure difference to millibars using the conversion factor: $$ 2\,\text{kPa} \cdot \frac{10\,\text{mbar}}{1\,\text{kPa}} = 20\,\text{mbar} $$ The pressure difference is 20 mbar. To summarize, the pressure difference between Hurricane Katrina and Hurricane Wilma is approximately 15.0012 mm Hg, 0.019738 atm, and 20 mbar.

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Key Concepts

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

Atmospheric Pressure
Atmospheric pressure, also known as barometric pressure, is the force exerted by the weight of air in the atmosphere. It varies with altitude and weather conditions. At sea level, the typical atmospheric pressure is approximately 101.3 kilopascals (kPa). Unusually low or high pressures can indicate severe weather changes.

Atmospheric pressure is measured using devices like barometers and can be expressed in different units such as kilopascals (kPa), millimeters of mercury (mm Hg), atmospheres (atm), and millibars (mbar). These units allow scientists and meteorologists to communicate and predict weather patterns more effectively, especially for extreme weather events like hurricanes.
Hurricanes
Hurricanes are massive storms characterized by high winds and heavy rain. They typically form over warm ocean waters and can cause significant destruction to coastal areas.

The intensity of a hurricane is often measured by its central atmospheric pressure, with lower pressures indicating stronger storms. For example, Hurricane Wilma, which recorded a pressure of 88.2 kPa, was one of the most intense hurricanes in the Atlantic. Lower atmospheric pressure in the core of the storm leads to stronger winds and more severe weather conditions.
Unit Conversion
Unit conversion is an essential mathematical process for scientists, allowing them to express measurements in different units for clarity and accuracy in various fields. For instance, converting the pressure difference from kilopascals (kPa) to millimeters of mercury (mm Hg), atmospheres (atm), and millibars (mbar) helps in comparing pressure values more effectively.
  • Kilopascals to Millimeters of Mercury: 1 kPa is equivalent to approximately 7.5006 mm Hg.
  • Kilopascals to Atmospheres: 1 kPa is approximately 0.009869 atm.
  • Kilopascals to Millibars: 1 kPa equals 10 mbar.


Being proficient in unit conversion aids in chemistry, physics, and daily applications, ensuring that measurements are accurate and universally understandable.
Chemistry Education
Chemistry education uses atmospheric pressure knowledge in several ways. Understanding pressure is crucial in areas like gas laws, reactions at different pressures, and atmospheric chemistry.

In educational settings, students often use exercises like converting pressure units (as seen in the exercise involving Hurricane Wilma and Katrina) to gain practical skills needed for real-world applications and scientific research. This hands-on approach helps students appreciate the broader implications of pressure, particularly in weather prediction and environmental science. By learning to manipulate and convert units accurately, students become better equipped to analyze scientific data critically.

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Most popular questions from this chapter

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