The angular velocity vector, ω, can be obtained by adding all components of the angular velocities or by A. taking half of the Laplacian form of the vector v. B. taking half of the curl of vector v. C. taking the gradient of vector v. D. solving for the cross product of the vector field and the gradient of v.
The angular velocity vector, ω, can be obtained by adding all components of the angular velocities or by A. taking half of the Laplacian form of the vector v. B. taking half of the curl of vector v. C. taking the gradient of vector v. D. solving for the cross product of the vector field and the gradient of v.
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter8: Applications Of Trigonometry
Section8.4: The Dot Product
Problem 31E
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The angular velocity
A. taking half of the Laplacian form of the vector v.
B. taking half of the curl of vector v.
C. taking the gradient of vector v.
D. solving for the cross product of the vector field and the gradient of v.
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