@article{doddamani2015,
author = {Doddamani, Vijaykumar H. and Raveesha, K.H. and Prasad, B.K. and Kumari, Ruchita},
title = {On a Technique to Relate EMF & Rate of Change of Magnetic Flux},
year = {2015},
month = {1},
volume = {44},
pages = {50--56},
journal = {International Letters of Chemistry, Physics and Astronomy},
doi = {10.18052/www.scipress.com/ILCPA.44.50},
keywords = {Magnet, Rotor, MATLAB, Coil},
abstract = {Faradays law of Induction is the principle of generating electricity in Hydro, Thermal, Wind and Nuclear power stations. In this paper we present a method to study the relationship between induced electromagnetic force (EMF) and the rate of change of Magnetic field and hence to verify this principle. This method involves the rotation of a magnet fixed to a rotor at different angular speeds and to find the EMF induced in the copper coil kept close to the rotor. The data collected is plotted in MATLAB. The results show that Induced EMF is directly proportional to the rate change of Magnetic flux with a correlation coefficient of 0.98. }
}