A) 90 V
B) 120 V
C) 220 V
D) 30 V
Correct Answer: B
Solution :
The magnetic flux linked with the primary coil is given by \[\phi ={{\phi }_{0}}+4t\] So, voltage across primary \[{{V}_{p}}=\frac{d\phi }{dt}=\frac{d}{dt}({{\phi }_{0}}+4t)\] \[=4\,\,volt\] (as\[{{\phi }_{0}}=\]constant) Also, we have \[{{N}_{p}}=50\]and\[{{N}_{s}}=1500\] From relation, \[\frac{{{V}_{s}}}{{{V}_{p}}}=\frac{{{N}_{s}}}{{{N}_{p}}}\] or \[{{V}_{s}}={{V}_{p}}\frac{{{N}_{s}}}{{{N}_{p}}}\] or \[{{V}_{s}}={{V}_{p}}\frac{{{N}_{s}}}{{{N}_{p}}}\] \[=4\left( \frac{1500}{50} \right)\] \[=120\,\,V\] Note As in case of given transformer, voltage in secondary is increased, hence it is a step-up transformer.You need to login to perform this action.
You will be redirected in
3 sec