1. A solid cone of angle 20, base ro, and density p. is rotating with initial angular velocity mo inside a conical seat, as shown below. The clearance h is filled with oil of viscosity u. Neglecting air drag, derive an analytical expression for the cone's angular velocity o(t) if there is no applied torque. @(t) Base radius ro Oil 20 h
1. A solid cone of angle 20, base ro, and density p. is rotating with initial angular velocity mo inside a conical seat, as shown below. The clearance h is filled with oil of viscosity u. Neglecting air drag, derive an analytical expression for the cone's angular velocity o(t) if there is no applied torque. @(t) Base radius ro Oil 20 h
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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A solid cone of angle 2Ɵ, base r 0 , and density ρ c is rotating with initial
angular velocity ω 0 inside a conical seat,
as shown below. The clearance h is filled with oil
of viscosity μ. Neglecting air drag, derive an analytical expression for the
cone’s angular velocity ω(t) if there is no
applied torque.
Transcribed Image Text:1. A solid cone of angle 20, base ro, and density p. is rotating with initial
angular velocity mo inside a conical seat,
as shown below. The clearance h is filled with oil
of viscosity u. Neglecting air drag, derive an analytical expression for the
cone's angular velocity o(t) if there is no
applied torque.
@(t)
Base
radius ro
Oil
20
h
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