Maximize the magnetic field in a solenoid

anonymousphys · Mar 31, 2010

Homework Statement

Assuming we have equal volumes in both scenarios, which would maximize the magnetic field in a solenoid: a thick and short wire or a thin and long wire.

Homework Equations

B=(m)(constant)(I)/(2R)
m= the number of layers of wire

The Attempt at a Solution

The answer is clearly a thin and long wire because of the equation B=unI, but I was suppose to use the equation I listed under "relevant equations". According to that equation, if we use a thicker wire, the number of layers of wire would increase but the radius would increase. So based on that equation, how am I suppose to realize that a long and thin wire maximizes the field?

Stonebridge · Apr 1, 2010

The equation listed looks like the one for a (flat) circular coil.
The one used is for a long solenoid.
The field in the centre of such a solenoid is given by
B= μonI
where n is the number of turns of wire per unit length.
Your reasoning is correct if the question refers to a solenoid.

Maximize the magnetic field in a solenoid

Homework Statement

Homework Equations

The Attempt at a Solution

Related to Maximize the magnetic field in a solenoid

1. How do you calculate the magnetic field in a solenoid?

2. How can the magnetic field in a solenoid be maximized?

3. What is the relationship between the magnetic field and the current in a solenoid?

4. How does the length of a solenoid affect the magnetic field?

5. Can the shape of a solenoid affect the magnetic field?

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