Plz do b part only in 20 minutes i need it plz b)Determine for P in the frame N the position vectorvector NaP.NTP, velocity vector VP, and accelerationNDraw a Free Body Diagram of the particle, clearly indicating all forces acting on the particle, anduse the Free Body Diagram to determine the equation(s) of motion of the particle.d)What relationship between 0 and needs to be satisfied at the point where the particle leaves thecircle?e)For each value of 00 between 0 and, determine the value of vo for which the particle leaves thecircular path at 0 = 00. A particle P of mass m = = 3.5 kg arrives at point O with a horizontal velocity vo and starts rollingdown a circle with radius R = 2 m. The particle is attached to the point O by means of a linear springof stiffness k = 70 N/m that is unstretched when the particle is at O. Assume that during the motionof P along the circle, the spring follows the circle. Let N = {n, ny} be a fixed reference frame asshown in the figure and let B = {b, by} be a reference frame attached to P so that b is tangentto the circular path and by is perpendicular to the circular path. For convenience, take g = 10 m/s²in this question.Onya)Determine the Direction Cosine Matrices [C]B and BCN.NnxIP

Answered: Determine for P in the frame N the…

Engineering

Mechanical Engineering

Determine for P in the frame N the position vector NP, velocity vector NP, and acceleration vector NaP.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Conservation of Energy

In physics, the rule of the conservation of energy states that energy doesn’t disappear from the atmosphere; instead, it changes its form from one type to another. Energy is one of the most important physical quantities in nature, and it cannot be created or destroyed — only transformed.

Question

Plz do b part only in 20 minutes i need it plz

b)
Determine for P in the frame N the position vector
vector NaP.
NTP, velocity vector VP, and acceleration
N
Draw a Free Body Diagram of the particle, clearly indicating all forces acting on the particle, and
use the Free Body Diagram to determine the equation(s) of motion of the particle.
d)
What relationship between 0 and needs to be satisfied at the point where the particle leaves the
circle?
e)
For each value of 00 between 0 and, determine the value of vo for which the particle leaves the
circular path at 0 = 00.

A particle P of mass m = = 3.5 kg arrives at point O with a horizontal velocity vo and starts rolling
down a circle with radius R = 2 m. The particle is attached to the point O by means of a linear spring
of stiffness k = 70 N/m that is unstretched when the particle is at O. Assume that during the motion
of P along the circle, the spring follows the circle. Let N = {n, ny} be a fixed reference frame as
shown in the figure and let B = {b, by} be a reference frame attached to P so that b is tangent
to the circular path and by is perpendicular to the circular path. For convenience, take g = 10 m/s²
in this question.
O
ny
a)
Determine the Direction Cosine Matrices [C]B and BCN.
N
nx
IP

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