-0.6*K2 m- A K1 m/s K1=2 К2-8 К4-2 k=50*K4 N/m B 4- The 2 kg smooth cylinder collar has a downward speed K1 m/s when it is at s=0 m. The natural length of the spring is 0.3*K2 meters and it has a spring constant of 50*K4 N/m. As the collar goes down with the specified initial velocity, it stops momentarily when s = Sg. a. Determine a datum point on the figure b. Calculate the initial kinetic energy of the system c. Calculate initial elastic and gravitational potential energy of the system d. Calculate the kinetic energy when s = Sg. e. Determine the Sg value using the conservation of energy : f. Calculate elastic and gravitational potential energy of the system s = Sg.

-0.6K2 m- A K1 m/s K1=2 К2-8 К4-2 k=50K4 N/m B 4- The 2 kg smooth cylinder collar has a downward speed K1 m/s when it is at s=0 m. The natural length of the spring is 0.3K2 meters and it has a spring constant of 50K4 N/m. As the collar goes down with the specified initial velocity, it stops momentarily when s = Sg. a. Determine a datum point on the figure b. Calculate the initial kinetic energy of the system c. Calculate initial elastic and gravitational potential energy of the system d. Calculate the kinetic energy when s = Sg. e. Determine the Sg value using the conservation of energy : f. Calculate elastic and gravitational potential energy of the system s = Sg.

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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Question

0.6*K2 m-
K1 m/s
K1=2
К2-8
K4=2
k=50*K4 N/m
B
4- The 2 kg smooth cylinder collar has a downward speed K1 m/s when it is at s=0
m. The natural length of the spring is 0.3*K2 meters and it has a spring constant
of 50*K4 N/m. As the collar goes down with the specified initial velocity, it stops
momentarily when s = Sg.
a. Determine a datum point on the figure
b. Calculate the initial kinetic energy of the system
c. Calculate initial elastic and gravitational potential energy of the system
d. Calculate the kinetic energy when s = Sg.
e. Determine the Sg value using the conservation of energy.
f. Calculate elastic and gravitational potential energy of the system s = Sg.

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