1) A capacitor has 5mm length and 4mm width. Two parallel plates are 2mm apart. Between the capacitors magnetic field is B=4 10^-2 Tesla at a given time. Calculate the displacement current. 2) An RLC circuit is build with a 220 microfarad capacitor 100 mH inductor. Find the resonance angular frequency 3) Correct the following functions for the Electric field and Magnetic field given below, so that it can be an electromagnetic wave a) Ex = 600 sin (300 x -900t) By= 2 sin(300x – 900t)

1) A capacitor has 5mm length and 4mm width. Two parallel plates are 2mm apart. Between the capacitors magnetic field is B=4 10^-2 Tesla at a given time. Calculate the displacement current. 2) An RLC circuit is build with a 220 microfarad capacitor 100 mH inductor. Find the resonance angular frequency 3) Correct the following functions for the Electric field and Magnetic field given below, so that it can be an electromagnetic wave a) Ex = 600 sin (300 x -900t) By= 2 sin(300x – 900t)

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter24: Electromagnetic Waves

Section: Chapter Questions

Problem 45PE: Integrated Concepts A 200-turn flat coil of wire 30.0 cm in diameter acts as an antenna for FM radio...

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Question

1) A capacitor has 5mm length and 4mm width. Two parallel plates are 2mm apart. Between the
capacitors magnetic field is B=4 10^-2 Tesla at a given time. Calculate the displacement current.
2) An RLC circuit is build with a 220 microfarad capacitor 100 mH inductor. Find the resonance
angular frequency
3) Correct the following functions for the Electric field and Magnetic field given below, so that it
can be an electromagnetic wave
a) Ex = 600 sin (300 x -900t) By= 2 sin(300x – 900t)

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