Answer : [tex]V_{s} = 100\times\dfrac{N_{p}}{N_{s}}[/tex]
Explanation :
Given that, number of loop in the primary coil = [tex]N_{p}[/tex]
Number of loop in the secondary coil = [tex]N_{s}[/tex]
Voltage in primary coil = 100 Volt
Voltage in secondary coil = [tex]V_{s}[/tex]
We know that
[tex]\dfrac{N_{p}}{N_{s}} = \dfrac{V_{s}}{V_{p}}[/tex]
[tex]V_{s} = 100\times\dfrac{N_{p}}{N_{s}}\ volt[/tex]
So, this is the required solution.
