Problem 14.691 of 16A 1.40 kg, horizontal, uniform tray is attached to a vertical idealspring of force constant 195 N/m and a 250 g metal ball is in thetray. The spring is below the tray, so it can oscillate up-and-down.The tray is then pushed down 13.9 cm below its equilibrium point(call this point A) and released from rest.aI Review I ConstantsPart AHow high above point A will the tray be when the metal ball leaves the tray? (Hint: This does not occur when the ball and tray reach their maximum speeds.)Express your answer with the appropriate units.HA?h =ValueUnitsSubmitRequest AnswerPart BHow much time elapses between releasing the system at point A and the ball leaving the tray?Express your answer with the appropriate units.HẢ?t =ValueUnitsSubmitRequest AnswerPart CHow fast is the ball moving just as it leaves the tray?MacBook Air80888DIIDDescF2F3F4F5F6F7FBF9F10F1F1223324&24.78del A 1.40 kg, horizontal, uniform tray is attached to a vertical idealspring of force constant 195 N/m and a 250 g metal ball is in thetray. The spring is below the tray, so it can oscillate up-and-down.The tray is then pushed down 13.9 cm below its equilibrium point(call this point A) and released from rest.SubmitRequest AnswerPart BHow much time elapses between releasing the system at point A and the ball leaving the tray?Express your answer with the appropriate units.?t =ValueUnitsSubmitRequest AnswerPart CHow fast is the ball moving just as it leaves the tray?Express your answer with the appropriate units.HÀ?ValueUnitsSubmitRequest AnswerProvide FeedbackMacBook Air80888escDIIDDF1F2F3F4F5F6FBF9F10%2324&134.7.

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Description: Problem 14.691 of 16A 1.40 kg, horizontal, uniform tray is attached to a vertical idealspring of force constant 195 N/m and a 250 g metal ball is in thetray. The spring is below the tray, so it can oscillate up-and-down.The tray is then pushed down

When a body of mass m attached to spring of Force constant k is disturbed, it undergoes vibration.…

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A1.40 kg, horizontal, uniform tray is attached to a vertical ideal spring of force constant 195 N/m and a 250 g metal ball is in the tray. The spring is below the tray, so it can oscillate up-and-down. The tray is then pushed down 13.9 cm below its equilibrium point (call this point A) and released from rest. aE Review I Constants Part A How high above point A will the tray be when the metal ball leaves the tray? (Hint: This does not occur when the ball and tray reach their maximum speeds.) Express your answer with the appropriate units. h= Value Units Submit Request Answer • Part B How much time elapses between releasing the system at point A and the ball leaving the tray? Express your answer with the appropriate units. Value Units Submit Request Answer Part C How fast is the ball moving just as it leaves the tray?

A1.40 kg, horizontal, uniform tray is attached to a vertical ideal spring of force constant 195 N/m and a 250 g metal ball is in the tray. The spring is below the tray, so it can oscillate up-and-down. The tray is then pushed down 13.9 cm below its equilibrium point (call this point A) and released from rest. aE Review I Constants Part A How high above point A will the tray be when the metal ball leaves the tray? (Hint: This does not occur when the ball and tray reach their maximum speeds.) Express your answer with the appropriate units. h= Value Units Submit Request Answer • Part B How much time elapses between releasing the system at point A and the ball leaving the tray? Express your answer with the appropriate units. Value Units Submit Request Answer Part C How fast is the ball moving just as it leaves the tray?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Use g = 10m/s/s
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