What are the velocity & position of an object as function of time?

AI Thread Summary
The discussion focuses on determining the velocity and position of a motorboat that stops due to a frictional force. The velocity function is expressed as v = v0 e^(-b/m * t), while the position function is x = x0 + (v0m/b)(1 - e^(-b/m * t)). Participants are working through the problem using the provided information about the boat's speed decreasing from 4.0 m/s to 1.0 m/s over 10 seconds to find the constant b/m. The equations are set up to solve for the time it takes for the boat to stop, which is influenced by the initial speed v0. The discussion emphasizes the application of these equations to find the boat's travel distance before coming to a halt.
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Homework Statement


A motorboat is moving across a lake at a speed vo when its moot suddenly freezes up and stops. The boat then slows down under the frictional force fR = -bv (a) What are the velocity and position of the boat as a function of time? (b) If the boat slows down from 4.0 to 1.0 m/s in 10s how far does it travel before stopping?

Homework Equations


fr=-bv

The Attempt at a Solution


v=v0 e-b/m *t
x=x0+ v0m/b (1-e -b/m *t)
 
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Now use the information from part (b) to find the constant b/m
 
how can i find b/m??
 
Put the given information into equations:
v0e(-b/m)T = 4 m/s
v0e(-b/m)(T+10) = 1 m/s
Then you can find how long it takes to stop (which will depend on v0)
 

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