- #1
Violagirl
- 114
- 0
Hi,
I'm trying to comprehend the idea of why the induced current of a transformer decreases as voltage increases. Is this in terms of an increased applied voltage? I know that if you have a high applied voltage through the primary coil, if it has a high number of loops, this will cause for a decreased induced voltage and thus, a decreased induced current? I know that the secondary coil will have a lower number of loops and that ε1 = ε2, which is equivalent for power and that say that p1 = p2 = I1ε1 = I2ε2. Is my understanding on this correct or am I missing something?
I'm trying to comprehend the idea of why the induced current of a transformer decreases as voltage increases. Is this in terms of an increased applied voltage? I know that if you have a high applied voltage through the primary coil, if it has a high number of loops, this will cause for a decreased induced voltage and thus, a decreased induced current? I know that the secondary coil will have a lower number of loops and that ε1 = ε2, which is equivalent for power and that say that p1 = p2 = I1ε1 = I2ε2. Is my understanding on this correct or am I missing something?