A particle moves from point A with an initial speed of 1.5 ft/s. It is known that its tangential acceleration is constant and that the time it takes to get from point A to C is 3 seconds. Determine a) the value of the tangential acceleration, b) the magnitude of the total acceleration at t=2.6 s. Consider in your calculations that the trajectory BC forms part of a circumference of radius p= 3 ft. A Vi= 1.5 ft/s 7 ft B 40° p = 3 ft C

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A particle moves from point A with an initial speed
of 1.5 ft/s. It is known that its tangential acceleration
is constant and that the time it takes to get from
point A to C is 3 seconds. Determine a) the value
of the tangential acceleration, b) the magnitude of
the total acceleration at t=2.6 s. Consider in your
calculations that the trajectory BC forms part of a
circumference of radius p= 3 ft.
A
7 ft
V₁ = 1.5 ft/s
B
40°
p = 3 ft
C
Transcribed Image Text:A particle moves from point A with an initial speed of 1.5 ft/s. It is known that its tangential acceleration is constant and that the time it takes to get from point A to C is 3 seconds. Determine a) the value of the tangential acceleration, b) the magnitude of the total acceleration at t=2.6 s. Consider in your calculations that the trajectory BC forms part of a circumference of radius p= 3 ft. A 7 ft V₁ = 1.5 ft/s B 40° p = 3 ft C
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