A cart is moving along and very close to a level air track at a speed of 0.32 m/s. The surface area of the cart’s underside is 2.4 × 10–2 m2 and the thickness of the air layer between the cart and the track is 6.6 × 10–5 m. The air temperature is 20°C. a.Find the magnitude of the retarding force, in newtons, acting on the cart due to the viscosity of the air layer between the cart and the air track. Take the viscosity of air at the given temperature to be 1.81 × 10–5 Pa⋅s. b.What is the ratio of this force to the weight of the 0.29 kg cart?
A cart is moving along and very close to a level air track at a speed of 0.32 m/s. The surface area of the cart’s underside is 2.4 × 10–2 m2 and the thickness of the air layer between the cart and the track is 6.6 × 10–5 m. The air temperature is 20°C. a.Find the magnitude of the retarding force, in newtons, acting on the cart due to the viscosity of the air layer between the cart and the air track. Take the viscosity of air at the given temperature to be 1.81 × 10–5 Pa⋅s. b.What is the ratio of this force to the weight of the 0.29 kg cart?
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter15: Fluids
Section: Chapter Questions
Problem 8PQ: One study found that the dives of emperor penguins ranged from 45 m to 265 m below the surface of...
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A cart is moving along and very close to a level air track at a speed of 0.32 m/s. The surface area of the cart’s underside is 2.4 × 10–2 m2 and the thickness of the air layer between the cart and the track is 6.6 × 10–5 m. The air temperature is 20°C.
a.Find the magnitude of the retarding force, in newtons, acting on the cart due to the viscosity of the air layer between the cart and the air track. Take the viscosity of air at the given temperature to be 1.81 × 10–5 Pa⋅s.
b.What is the ratio of this force to the weight of the 0.29 kg cart?
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