login
My Experiments (
)
Go to VRLab
Signup
Forgot Password
book demo
HOME
LABORATORIES
Medical Biochemistry Laboratory
Mathematics Laboratory
VRLab Academy Junior
Mechanics Laboratory
Electromagnetism Laboratory
Optics and Waves Laboratory
Modern Physics
Thermodynamics Laboratory
Chemistry Laboratory
Biology Laboratory
Popular Science
COMPANY
FAQ
Get to know us
Contact Form
Find Reseller
SUPPORT
Experiment List
How VRLab Academy Works?
LMS Integration
Hardware Requirements
Usage Guide
Support Line : support@vrlabacademy.com
PRICING
Magnetic Induction (Faraday's Law) Experiment
•To understand the quantitative relation between the
magnetic
field produced by a current carrying solenoid and the current flowing through it
•To study
Faraday’s Law
with the hepl of solenoids
•To experimentally determine the magnetic susceptibility of free space
Categories:
Electromagnetism Laboratory
BOOK DEMO
Similar Products
Equipotantial Surfaces and Electric Field Lines
Investigate equipotential lines of two oppositely charged conductors and effect of a conducting ring on the equipotential and electric field lines.
Biot-Savart Law
Study magnetic field along axis of current carrying circular loop by Biot-Savart law Find strength of the magnetic field at the centre of the current
Wheatstone Bridge
Start the experiment to learn about Wheatstone bridge and circuits. Collect your data to crosscheck what you learned.
Lorentz Law
Magnetic force on a current-carrying wire positioned horizontally in an external magnetic field between the pole faces of a magnet.