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A 0.300 kg mass is attached toa 26.6 N/m spring. It is pulled0.120 m and released. How much Potential Energy does it have when it is 0.0600 m from equilibrium?(Unit = J)

User Betsey
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2 Answers

21 votes
21 votes

Answer: 0.0479

Explanation: This answer works for Acellus! :D

hope this helped!

User CarelZA
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3.0k points
15 votes
15 votes

0.144 Joules

Step-by-step explanation

elastic potential energy is given by


\begin{gathered} PE=(1)/(2)kx^2 \\ where\text{ K is the spring constatn} \\ x\text{ is the amount of compresion \lparen}relative\text{ to equilibrium\rparen} \end{gathered}

so

Step 1

Diagram:

given


\begin{gathered} m=0.3\text{ kg} \\ k=26.6(N)/(m) \\ x=0.120\text{ m} \end{gathered}

Step 1

a) energy when the spting is compressed

Total elastic energy of the spring = Kinetic energy of the spring + potential energy of the spring

so


\begin{gathered} E=(1)/(2)kx^2=(1)/(2)(26.6\text{ N/m\rparen\lparen0.12}^2)=0.19152\text{ J} \\ EP=(1)/(2)kx^2=(1)/(2)(26.6)(0.6^2)=0.04788 \\ hence \\ Ek=0.19152\text{ J-0.04788} \\ Ek=0.144\text{ Joules} \end{gathered}

the kinetic energy is given by

A 0.300 kg mass is attached toa 26.6 N/m spring. It is pulled0.120 m and released-example-1
User Puppymaster
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