Part d-f 1715) (ex) The roller coaster car of mass m is initially at rest against a compressedspring (stiffness constant k) at point A. When the spring is released, the cartravels on a path of radius r through the loop-the-loop. Ignore friction. Findall answers in terms of m, r, k,, and g. Draw any necessary FBDs, show yourwork clearly, and use standard notation.a) Find the speed ve needed at C so that the apparent weight there is equal to the actual weight.b) Calculate the distance the spring must be compressed at point A.c) Determine the speed v at point B.d) For point B, find the (i) tangential acceleration, (ii) radial acceleration, and (iii) total accelerationmagnitude.e) Calculate all of these values if: m = 400 kg, r= 15 m, k, =7500 N/m.f) Find the max acceleration of the car when in contact with the spring. Is it safe (less than 50 m/s² )?• V₂ = ?

Answered: Part d-f

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Advanced Physics

Part d-f

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Question

Part d-f

17
15) (ex) The roller coaster car of mass m is initially at rest against a compressed
spring (stiffness constant k) at point A. When the spring is released, the car
travels on a path of radius r through the loop-the-loop. Ignore friction. Find
all answers in terms of m, r, k,, and g. Draw any necessary FBDs, show your
work clearly, and use standard notation.
a) Find the speed ve needed at C so that the apparent weight there is equal to the actual weight.
b) Calculate the distance the spring must be compressed at point A.
c) Determine the speed v at point B.
d) For point B, find the (i) tangential acceleration, (ii) radial acceleration, and (iii) total acceleration
magnitude.
e) Calculate all of these values if: m = 400 kg, r= 15 m, k, =7500 N/m.
f) Find the max acceleration of the car when in contact with the spring. Is it safe (less than 50 m/s² )?
• V₂ = ?

Expert Solution

Introduction:

We are given the point where acceleration is to be found. The centripetal or radial acceleration is given as

$a_{c} = \frac{v^{2}}{r}$

Where $v, r$ are velocity and radius respectively.

We thus find both accelerations. We then find total acceleration. We then find acceleration of spring.

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