Answered: ha ZeroPotential Datum MA mg k | bartleby

Elements Of Electromagnetics

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

The figure shown below is released from rest with the spring unstretched. Use the datum shown for zero gravitational potential energy. For the values given below answer the following questions:
Position 1 is Ha1

μk=0.14

k=32.5 Nm

hA1=0.6 m

mA=4.6 kg

mB=1.3 kg

What is the Gravitational Potential Energy for mass mA at position 1 (remember your signs)?

What is the Gravitational Potential at position 1 for mB?

What is the Potential Energy of the spring at position 1?

What is the Kinetic Energy at position 1 for mA?

What is the Kinetic Energy at position 1 for mB?

Again we have the figure shown below that was released from rest with the spring unstretched. Use the datum shown for zero gravitational potential energy. At position 2 the spring is at its max stretch. Remember we have the values below; answer the following questions:

μk=0.14

k=32.5 Nm

hA1=0.6 m

mA=4.6 kg

mB=1.3 kg

What is the max stretch in the spring?

ha
ZeroPotential Datum
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mB
k
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You are at a furniture store and notice that a grandfather clock has its time regulated by a physical pendulum that consists of a rod with a movable weight on it. When the weight is moved downward, the pendulum slows down; when it is moved upward, the pendulum swings faster. If the rod has a mass of 1.23 kg and a length of 1.25 m and the weight has a mass of 1.46 kg. where should you place the mass to give the pendulum a period of 2.00 seconds? Measure the distance in meters from the top of the pendulum. m(±0.02 m)
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