The combustion of fossil fuels produces micron-sized particles of soot, one of the major components of air pollution. The terminal speeds of these particles are extremely small, so they remain suspended in air for very long periods of time. Furthermore, very small particles almost always acquire small amounts of charge from cosmic rays and various atmospheric effects, so their motion is influenced not only by gravity but also by the earth's weak electric field. Consider a small spherical particle of radius r, density ρ, and charge q. A small sphere moving with speed v experiences a drag force Fdrag=6πηrv, where η is the viscosity of the air. (This differs from the drag force you learned earlier in the book because there we considered macroscopic rather than microscopic objects.) Soot is primarily carbon, and carbon in the form of graphite has a density of 2200 kg/m3. In the absence of an electric field, what is the terminal speed in mm/smm/s of a 2.5 μmdiameter graphite particle? The viscosity of air at 20∘C is 1.8×10−5kg/ms.   The earth's electric field is typically (150 N/C, downward). In this field, what is the terminal speed in mm/smm/s of a 2.5 μm-diameter graphite particle that has acquired 290 extra electrons?

Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter19: Electric Forces And Electric Fields
Section: Chapter Questions
Problem 8OQ: A circular ring of charge with radius b has total charge q uniformly distributed around it. What is...
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The combustion of fossil fuels produces micron-sized particles of soot, one of the major components of air pollution. The terminal speeds of these particles are extremely small, so they remain suspended in air for very long periods of time. Furthermore, very small particles almost always acquire small amounts of charge from cosmic rays and various atmospheric effects, so their motion is influenced not only by gravity but also by the earth's weak electric field. Consider a small spherical particle of radius r, density ρ, and charge q. A small sphere moving with speed v experiences a drag force Fdrag=6πηrv, where η is the viscosity of the air. (This differs from the drag force you learned earlier in the book because there we considered macroscopic rather than microscopic objects.)

Soot is primarily carbon, and carbon in the form of graphite has a density of 2200 kg/m3. In the absence of an electric field, what is the terminal speed in mm/smm/s of a 2.5 μmdiameter graphite particle? The viscosity of air at 20∘C is 1.8×10−5kg/ms.
 
The earth's electric field is typically (150 N/C, downward). In this field, what is the terminal speed in mm/smm/s of a 2.5 μm-diameter graphite particle that has acquired 290 extra electrons?
 
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