Calculate the speed (in m/s) a spherical rain drop would achieve falling from 3.00 km in the absence of air drag and with air drag. Take the size across of the drop to be 3 mm, the density to be 1.00 × 103 kg/m³, and the surface area to be ar. (Assume the density of air is 1.21 kg/m³.) (a) in the absence of air drag 242.49 m/s (b) with air drag m/s

College Physics
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ISBN:9781305952300
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Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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**Calculate the speed (in m/s) a spherical rain drop would achieve falling from 3.00 km in the absence of air drag and with air drag.** 

Take the size across of the drop to be 3 mm, the density to be \(1.00 \times 10^3 \, \text{kg/m}^3\), and the surface area to be \(\pi r^2\). (Assume the density of air is \(1.21 \, \text{kg/m}^3\).)

**(a) In the absence of air drag**  
\(242.49 \, \text{m/s}\)

**(b) With air drag**  
\(\_\_\_\) m/s

---

This text provides a calculation problem for determining the speed of a falling spherical raindrop, covering scenarios with and without air drag. Given parameters include the fall distance (3.00 km), droplet size, and density. The answer for (a) is given, while (b) requires calculation considering air drag.
Transcribed Image Text:**Calculate the speed (in m/s) a spherical rain drop would achieve falling from 3.00 km in the absence of air drag and with air drag.** Take the size across of the drop to be 3 mm, the density to be \(1.00 \times 10^3 \, \text{kg/m}^3\), and the surface area to be \(\pi r^2\). (Assume the density of air is \(1.21 \, \text{kg/m}^3\).) **(a) In the absence of air drag** \(242.49 \, \text{m/s}\) **(b) With air drag** \(\_\_\_\) m/s --- This text provides a calculation problem for determining the speed of a falling spherical raindrop, covering scenarios with and without air drag. Given parameters include the fall distance (3.00 km), droplet size, and density. The answer for (a) is given, while (b) requires calculation considering air drag.
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