I need the answer as soon as possible The velocity of particles of gas flowing along the center of the pipe inFig. 3-18 is defined for x 2 1 m by the velocity field as V (1/x)m/s,where t is in seconds and x is in meters. If a particle within this flowis at x = 1 m when t 0, determine its acceleration when it is atx = 2 m.

Write the expression of acceleration. a=udVdx+dVdt

The velocity of particles of gas flowing along the center of the pipe in Fig. 3-18 is defined for x 2 1 m by the velocity field as V (t/x)m/s, where t is in seconds and x is in meters. If a particle within this flow is at x = 1 m when t= 0, determine its acceleration when it is at x = 2 m. %3D

The velocity of particles of gas flowing along the center of the pipe in Fig. 3-18 is defined for x 2 1 m by the velocity field as V (t/x)m/s, where t is in seconds and x is in meters. If a particle within this flow is at x = 1 m when t= 0, determine its acceleration when it is at x = 2 m. %3D

Classical Dynamics of Particles and Systems

5th Edition

ISBN:9780534408961

Author:Stephen T. Thornton, Jerry B. Marion

Publisher:Stephen T. Thornton, Jerry B. Marion

Chapter1: Matrices, Vectors, And Vector Calculus

Section: Chapter Questions

Problem 1.22P

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I need the answer as soon as possible

The velocity of particles of gas flowing along the center of the pipe in
Fig. 3-18 is defined for x 2 1 m by the velocity field as V (1/x)m/s,
where t is in seconds and x is in meters. If a particle within this flow
is at x = 1 m when t 0, determine its acceleration when it is at
x = 2 m.

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