Terminal Velocity 2. Given: Atmospheric pressure = 101.3 kPA Air density = 1.20 kg/cubic meter Size of rain droplet; Set C=0.6mm, Temperature = 20 deg. C Determine; The force due to gravity and buoyant force in N. b. What is the drag force in N if the rain drop is in state of equilibrium? Consider vertical forces only If the temperature becomes 40 deg C (density varies), compare the terminal velocity, make a conclusion. Use drag coefficient same with 20 deg C. d. If the diameter of rain drop is 2.0 mm, compare the terminal velocity, make a conclusion.

Terminal Velocity 2. Given: Atmospheric pressure = 101.3 kPA Air density = 1.20 kg/cubic meter Size of rain droplet; Set C=0.6mm, Temperature = 20 deg. C Determine; The force due to gravity and buoyant force in N. b. What is the drag force in N if the rain drop is in state of equilibrium? Consider vertical forces only If the temperature becomes 40 deg C (density varies), compare the terminal velocity, make a conclusion. Use drag coefficient same with 20 deg C. d. If the diameter of rain drop is 2.0 mm, compare the terminal velocity, make a conclusion.

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter13: Temperature, Kinetic Theory, And The Gas Laws

Section: Chapter Questions

Problem 38PE: (a) In the deep space between galaxies, me density of atoms is as low as 106atoms/m3, and me...

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Terminal Velocity 2. Given: Atmospheric pressure = 101.3 kPA Air density = 1.20 kg/cubic meter Size of rain droplet; Set C=0.6mm, Temperature = 20 deg. C Determine; a. The force due to gravity and buoyant force in N. b. What is the drag force in N if the rain drop is in state of equilibrium? Consider vertical forces only c. If the temperature becomes 40 deg C (density varies), compare the terminal velocity, make a conclusion. Use drag coefficient same with 20 deg C. d. If the diameter of rain drop is 2.0 mm, compare the terminal velocity, make a conclusion.
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