One Dimentional Relative Motion

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Homework Help Overview

The problem involves relative motion in one dimension, specifically focusing on an ocean liner approaching a pier and a speedboat sent to pick up a pilot. The scenario includes calculating the time for the speedboat's return and determining the displacement and distance covered during the round trip.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the setup of the problem, questioning the initial attempts at formulating equations. There are inquiries about the implications of constant acceleration and the correct interpretation of relative motion.

Discussion Status

Some participants have offered guidance on how to approach the problem, suggesting that the acceleration can be considered constant and prompting the original poster to reconsider their equations. Multiple interpretations of the problem are being explored, particularly regarding the relationship between the speedboat and the ocean liner.

Contextual Notes

There is a mention of the time it takes for the speedboat to reach the pier and the distance the ocean liner travels during that time, which may influence the calculations. The original poster's attempt at a solution appears to lack clarity and completeness.

shizaep
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Homework Statement



An ocean liner approaches a peer at 20km/h. When the ocean liner is 10 km away, the captain sends a speedboat to the pier to pick up the harbour pilot, who will help dock the ocean liner. The speedboat takes 12 min to get to the pier.
a) How long would the speedboat take to return to the ocean liner if it maintains the same speed?
b)Find the displacement of the speedboat during the round trip and the distance covered by the speedboat during the round trip.

Homework Equations



xab(t) = 1/2 aabt^2 + voab + xoab

The Attempt at a Solution



a) (0) = (0) + (8.33)t + (0)

??
 
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That's not much of an attempt. Do you have any specific questions? What are you getting hung up on?
 
Since relative acceleration is zero, there would only be one solution for t, at 0?
Makes no sense so I definitely did not construct the equation correctly
 
I don't think your looking at this right.

Acceleration is constant, so just take that out of your equation.

##x(t)=x_{b0}+v_b(t)##, where##v_b## is the velocity of the ocean liner, if it takes the speedboat 12 minutes to get to the shore how far as the Ocean liner traveled in that time? What is the speedboats velocity? ##v_s={\frac{x}{t}}##, where ##v_s## is the velocity of the speedboat.

Now that should get you started, keep in mind that the Ocean Liner is constantly moving.
 

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