ft When the crate is at point A of the slope, it has a speed of 15 which increasing at a rate of 3 The 82 slope is defined by the function y = 0.03125 · x². y y = f(x) A di Values for the figure are...

ft<br>When the crate is at point A of the slope, it has a speed of 15<br>which increasing at a rate of 3<br>The<br>82<br>slope is defined by the function y = 0.03125 · x².<br>y<br>y = f(x)<br>A<br>di<br>Values for the figure are given in the following table. Note the figure may not be to scale.<br>Variable<br>Value<br>di<br>14 ft<br>Using normal and tangential components,<br>a. Determine the radius of curvature of the slope at point A, p.<br>b. Determine the magnitude of the normal acceleration of the crate at point A, an.<br>c. Determine the magnitude of the acceleration of the crate at point A, a<br>

Extracted text: ft When the crate is at point A of the slope, it has a speed of 15 which increasing at a rate of 3 The 82 slope is defined by the function y = 0.03125 · x². y y = f(x) A di Values for the figure are given in the following table. Note the figure may not be to scale. Variable Value di 14 ft Using normal and tangential components, a. Determine the radius of curvature of the slope at point A, p. b. Determine the magnitude of the normal acceleration of the crate at point A, an. c. Determine the magnitude of the acceleration of the crate at point A, a

Jun 11, 2022

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ft When the crate is at point A of the slope, it has a speed of 15 which increasing at a rate of 3 The 82 slope is defined by the function y = 0.03125 · x². y y = f(x) A di Values for the figure are...

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