A2.48-kg ball is attached to an unknown spring and allowed tooscillate. The figure below (Figure 1) shows a graph of the ball'sposition as a function of time t▾ Part AWhat is the maximum kinetic energy of the vibrating ball?Express your answer in joules to two significant figures.19G ΑΣΦ |KSubmitPart BRequest AnswerWhen does its it occur?Express your answers in seconds to two significant figures separated by commas.IVE ΑΣΦt₁ = t₁ = t₁ = t₁ =SubmitProvide Feedback?Request Answer?S Figurex (cm)3.02.01.0-1.0-2.0-3.00.50श्री1.0<1 of 1→ 1 (s)

Answered: Image /qna-images/answer/fcbb51e7-fcda-4592-bd37-b9a3bb2cb45e.jpg

A2.45-kg ball is attached to an unknown spring and allowed to oscillate. The figure below (Figure 1) shows a graph of the ball's position as a function of time t. Part A What is the maximum kinetic energy of the vibrating ball? Express your answer in joules to two significant figures. 195] ΑΣΦ ?

A2.45-kg ball is attached to an unknown spring and allowed to oscillate. The figure below (Figure 1) shows a graph of the ball's position as a function of time t. Part A What is the maximum kinetic energy of the vibrating ball? Express your answer in joules to two significant figures. 195] ΑΣΦ ?

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Question

A2.48-kg ball is attached to an unknown spring and allowed to
oscillate. The figure below (Figure 1) shows a graph of the ball's
position as a function of time t
▾ Part A
What is the maximum kinetic energy of the vibrating ball?
Express your answer in joules to two significant figures.
19G ΑΣΦ |
K
Submit
Part B
Request Answer
When does it
s it occur?
Express your answers in seconds to two significant figures separated by commas.
IVE ΑΣΦ
t₁ = t₁ = t₁ = t₁ =
Submit
Provide Feedback
?
Request Answer
?
S

Figure
x (cm)
3.0
2.0
1.0
-1.0
-2.0
-3.0
0.50
श्री
1.0
<
1 of 1
→ 1 (s)

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Step 3: Part B- Calculation of the time at which the kinetic energy is maximum

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