I read the other day an article which stated the factors which affected the strength of an induced current being:
From that list there's one thing I'm not sure of so I'm asking for clarification.
When it says '"l"-Length of the conductor in the magnetic field', is it being stated:
For example, if I had two loops with the following aspects:
one with a diameter of 6", the other 12", and both coils otherwise equal:
Would both coils provide the same voltage and current? or would one create more than the other?
Thank you for any clarification.
- "l"-Length of the conductor in the magnetic field
- "v"-Velocity of the conductor (speed of the rotor)
- "B"-Strength of the electromagnetic field
From that list there's one thing I'm not sure of so I'm asking for clarification.
When it says '"l"-Length of the conductor in the magnetic field', is it being stated:
- the total length of the conductor?, or
- the length of conductor which is directly exposed to the field?
For example, if I had two loops with the following aspects:
one with a diameter of 6", the other 12", and both coils otherwise equal:
- same gauge,
- wound with the same density
- wound in the same direction,
- placed the same distance from the passing magnet
- 1" length of coil by which the magnet passes
- magnet applied with the same velocity
- same field strength.
Would both coils provide the same voltage and current? or would one create more than the other?
Thank you for any clarification.