The 9 lb particle is subjected to the action of its weight and forces F₁ = {2i + 6j - 2tk} lb, F₂ = {t²i - 4tj - 1k} lb, and F3 = {-2ti} lb, where t is in seconds. (Figure 1) Figure x 1 of 1 Part A Determine the distance the ball is from the origin 4 s after being released from rest. Express your answer to three significant figures and include the appropriate units. ▸ View Available Hint(s) S= 197 μA ft Submit Previous Answers Provide Feedback ? * Incorrect; Try Again; One attempt remaining Next >

4. part a please

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## Educational Content on Particle Motion ### Problem Description A 9 lb particle is subjected to the action of its weight and three forces: - \( \mathbf{F_1} = \{2t \mathbf{i} + 6t \mathbf{j} - 2tk \} \) lb - \( \mathbf{F_2} = \{t^2 \mathbf{i} - 4t \mathbf{j} - 1k \} \) lb - \( \mathbf{F_3} = \{-2ti \} \) lb, where \( t \) is in seconds. (Refer to Figure 1) ### Task Determine the distance the ball is from the origin 4 seconds after being released from rest. Your answer should include three significant figures and appropriate units. ### Input Form - Distance \( s = \) [Input value: 197] ft **Status:** Incorrect; Try Again; One attempt remaining. ### Graphical Diagram Explanation - The Figure shows a 3D coordinate system with forces \( \mathbf{F_1} \), \( \mathbf{F_2} \), and \( \mathbf{F_3} \) represented as arrows. Each force acts along specific axes with direction and magnitude indicated by the arrow's orientation and length. ### Feedback and Attempts Ensure calculations are accurate and check vector components. Use the conditions of motion to verify results. Adjust calculations as necessary before submitting the final answer.