Solving Uncertainty Principle Problem with Car and Toll Gate

AI Thread Summary
The discussion revolves around a physics problem involving a car approaching a toll gate, specifically addressing the minimum speed required to avoid scraping the sides and the time taken to pass through the gate. Participants express confusion about applying Heisenberg's uncertainty principle to this scenario, questioning its relevance to the problem's dimensions and velocity. There's a suggestion that the problem may not require the uncertainty principle and could be approached differently, possibly invoking de Broglie's concepts. The need for clarification on the relationship between uncertainty, wavelength, and the dimensions involved is emphasized. Overall, the participants seek guidance on solving the problem effectively.
tempest33k
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I am having trouble getting going on this problem and I'm hoping someone can help get me started.
A car with a mass of 1000 kg approaches a toll plaza. The clearance on either side of the car as it passes through the toll gate is 1 m. (a) What is the minimum speed at which the car can approach the gate and be reasonably sure of not scraping on either side? (b) How many years will it take the car to go through the gate if it is 5 m long?

I have no idea how to do solve this. Originally I thought about using Heisenberg's uncertainty principle and setting delta x = 1 m. Yet I don't see how the uncertainty in that direction is related to a perpendicular velocity that the car would be approaching in. Perhaps I just don't understand the concept fully, as I don't see why there is a minimum speed I must be going to be sure I won't hit the side.

I will be grateful for any help.
Cheers.
 
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Is it possible this is a trick question? Sounds to me like it can be solved without invoking HUP.
 
I have a similar problem to tempst33k's .. this time with electrons. It seems the wavelength (uncertainty?) is in the direction of travel and my interest is in the 'size' normal to the direction of travel.

A comment on whether the 'uncertainty' and wavelength are or are not the same would be most appreciated.

Can anyone help please?
 
I don't like these types of problems.

Sounds like de Broglie.

Regards,
George
 
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