Approximating Windshield Shape of a Car: Velocity at Points A & B

AI Thread Summary
The discussion focuses on approximating the shape of a car windshield in polar coordinates and determining air velocity at points A and B when the car is traveling at 55 mph. Participants express uncertainty about applying Bernoulli's Equation and the method of repeating variables to solve the problem. The "no slip" boundary condition is mentioned, clarifying that the velocity at point A relative to the car is zero, while the ground velocity is 55 mph. The conversation highlights the challenges of understanding fluid dynamics concepts in this context. Overall, the thread emphasizes the need for guidance in approaching the problem effectively.
kela582
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Homework Statement


[/B]
The shape of a car windshield is approximated in the figure below; its length is 2.0 ft and height is 1.5 ft. Obtain an equation of the windshield shape r as a function of
θ,
r(θ), in the polar coordinate system shown in the picture.

When the car moves at 55 mph, determine the velocity of the air at points A and B.

28b87iq.jpg


Homework Equations



Not really sure how to approach this...maybe Bernoulli's Equation? We've been studying the method of repeating variables, but I'm unsure how I would apply that. I really don't know where to begin with this one!

The Attempt at a Solution



(P/rho + v^2/2 + gz = constant)
But I don't know the pressure difference...I'm hopelessly stuck :( If anyone could help shed some light on this, and just give me an idea where to even begin, that would be very appreciated!
 
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This seems to be a trick question. Have you heard of the "no slip" boundary condition?

Chet
 
Chestermiller said:
This seems to be a trick question. Have you heard of the "no slip" boundary condition?

Chet
Ah, so v_A = 0.
 
kela582 said:
Ah, so v_A = 0.
Relative to the car. Relative to the ground, it's U = 55 mph.

Chet
 

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