"A raindrop with radius R= 1.6 mm falls from a cloud that is at height h = 1200 m above the ground. The drag coefficient C for the drop is 0.70. Assume that thedrop is spherical throughout its fall. The density of water pw is 1000 kg/m3, and the density of air pa is 1.1 kg/m³. If you know that the raindrop reaches terminalspeed after falling just a few meters. What is the terminal speed?"7.4 m/s9.8 m/s4.4 m/sThe data is not enough to calculate the speed

Name: "A raindrop with radius R= 1.6 mm falls from a cloud that is at heigh
Uploaded: 2024-03-20T06:56:46.000Z
Channel: Bartleby
Description: "A raindrop with radius R= 1.6 mm falls from a cloud that is at height h = 1200 m above the ground. The drag coefficient C for the drop is 0.70. Assume that thedrop is spherical throughout its fall. The density of water pw is 1000 kg/m3, and the den

Given data: Radius of the rain drop r=1.6mm=1.6×10-3m Height h = 1200m Drag coefficient C=0.70…

Science

Physics

"A raindrop with radius R= 1.6 mm falls from a cloud that is at height h = 1200 m above the ground. The drag coefficient C for the drop is 0.70. Assume that th drop is spherical throughout its fall. The density of water pw is 1000 kg/m, and the density of air pa is 1.1 kg/m³. If you know that the raindrop reaches term speed after falling just a few meters. What is the terminal speed?" 7.4 m/s 9.8 m/s 4.4 m/s doto ic pot enough to calculate the speed

"A raindrop with radius R= 1.6 mm falls from a cloud that is at height h = 1200 m above the ground. The drag coefficient C for the drop is 0.70. Assume that th drop is spherical throughout its fall. The density of water pw is 1000 kg/m, and the density of air pa is 1.1 kg/m³. If you know that the raindrop reaches term speed after falling just a few meters. What is the terminal speed?" 7.4 m/s 9.8 m/s 4.4 m/s doto ic pot enough to calculate the speed

Classical Dynamics of Particles and Systems

5th Edition

ISBN:9780534408961

Author:Stephen T. Thornton, Jerry B. Marion

Publisher:Stephen T. Thornton, Jerry B. Marion

Chapter9: Dynamics Of A System Of Particles

Section: Chapter Questions

Problem 9.63P

See similar textbooks

Similar questions

Estimate the terminal speed of a wooden sphere (density 0.830 g/cm3) falling through air, if its radius is 8.00 cm and its drag coefficient is 0.500. (The density of air is 1.20 kg/m3.) (b) From what height would a freely falling object reach this speed in the absence of air resistance?
A raindrop with radius R= 1.5 mm falls from a cloud that is at height h = 1200 m above the ground.The drag coefficient C for the drop is 0.60. Assume that the drop is spherical throughout its fall. The density of water rw is 1000 kg/m3, and the density of air ra is 1.2 kg/m3. (a) the raindrop reaches terminal speed after falling just a few meters.What is the terminal speed?
A spherical raindrop of mass 0.0128 g and radius 1.45 mm falls from a cloud that is at a height of 1139 m above the ground. Assume the drag coefficient for the raindrop is 0.60 and the density of the air is 1.3 kg/m3. What is the raindrop's terminal speed? And what would the raindrop's speed just before landing on the ground if therewere no drag force (no air resistance)?
Consider a speherical speck of dust of mas 1.5*10^-11 kg and radius 2.1*10^-6m with drag coefficient CD= 0.5 falling in air with density P(air) = 1.2kg/m^3. What is the terminal velocity of the dust? Area= pie*r^2
If a bubble in sparkling water accelerates upward at the rate of 0.225 m/s2 and has a radius of 0.500 mm, what is its mass? Assume that the drag force on the bubble is negligible.
"A raindrop with radius R= 1.2 mm falls from a cloud that is at height h = 1200 m above the ground. The drag coefficient C for the drop is 0.40. Assume that the drop is spherical throughout its fall. The density of water ρw is 1000 kg/m3, and the density of air ρa is 1.1 kg/m3. If you know that the raindrop reaches terminal speed after falling just a few meters. What is the terminal speed?"
The curved section of a horizontal highway is a circular unbanked arc of radius 520 m. If the coefficient of static friction between this roadway and typical tires is 0.30, what would be the maximum safe driving speed for this horizontal curved section of highway?
A 3 kg ball falls into a long cylinder filled with oil and the friction with the oil molecules can be represented by f = -bV where b = 2.4 kg / s. The terminal speed that the ball reaches is
"A raindrop with radius R= 1.6 mm falls from a cloud that is at height h = 1200 m above the ground. The drag coefficient C for the drop is 0.60. Assume that the drop is spherical throughout its fall. The density of water ρw is 1000 kg/m3, and the density of air ρa is 1.2 kg/m3. If you know that the raindrop reaches terminal speed after falling just a few meters. What is the terminal speed?" a 7.6 m/s b 9.8 m/s c 4.6 m/s d The data is not enough to calculate the speed
A Styrofoam ball of radius 51 cm falls with a terminal velocity of 7.33 m/s. What is the mass of the ball? You may assume that the drag coefficient is 1 and that the density of air is 1.3 kg/m^3.
A Wall of Death is a carnival show featuring a motorcyclist rides along the vertical wall of the cylinder and performs various stunts while doing so. Given that the radius of the cylinder is 7 m and the static coefficient of friction is 0.8, what is the minimum speed in m/s2 that the motorcyclist must do to prevent the motorcycle to slip from the wall?
A motorcycle driver drives around a circular vertical wall 30.5m in diameter. The coefficient of friction between tires and wall is 0.60. What is the minimum speed that will prevent his sliding down the wall? At what angle will the motorcylce be incilined to the horizontal?