Magnetic flux through the circular cross-sectional area of the solenoid

AI Thread Summary
To calculate the magnetic flux through the circular cross-sectional area of the solenoid, first determine the magnetic field using the formula B = µ * N * I, resulting in B = 8.4 x 10^-2 T. Magnetic flux (Φ) is calculated as Φ = B * A, where A is the area of the circular cross-section. The area A can be found using the formula A = π * (r^2), with the radius r being half the diameter (0.017 m). The final calculation for magnetic flux will yield the result in Webers (Wb).
Kourtney0115
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Homework Statement


A solenoid 1.7 cm in diameter and 30 cm in length has 4000 turns and carries a current of 5 A. Calculate the magnetic flux(in Wb) through the circular cross-sectional area of the solenoid. Since this is a very long solenoid, you may use the simplified magnetic field formula for the infinite solenoid.


Homework Equations


B = µ * N * I


The Attempt at a Solution


B = (4 . π . 10^–7) . (4000 / 0.3) . 5 = 8.4 . 10^–2 T


My online homework is telling me this is incorrect. I am not sure what I am doing wrong.
 
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Hello Kourtney0115,

It seems you've already calculated the magnetic field (measured in Teslas). Next step is to find the magnetic flux (measured in Webers).
 
Im not sure how to convert T into Wb. I tried to look it up on google and the only thing i found was T=Wb/m^2. But i am not given m^2.
 
Kourtney0115 said:
Im not sure how to convert T into Wb. I tried to look it up on google and the only thing i found was T=Wb/m^2. But i am not given m^2.

Magnetic flux is the magnetic field integrated over some surface (which has an area). For the special case where magnetic field is constant over a given area (surface), the the magnetic flux through that surface is the dot product of the magnetic field and the surface (the "surface" being something which has a surface area).

Hint: The problem statement says, "...through the circular cross-sectional area of the solenoid."
 

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