The electric field intensity E is given by E=E*sin (wt-Bz) in free space. What is the value of the magnetic field strength H, magnetic flux density B, and electric flux density D? -
![Constructing an Expression for the Magnetic Field Induced by a Time-Dependent Electric Field | Physics | Study.com Constructing an Expression for the Magnetic Field Induced by a Time-Dependent Electric Field | Physics | Study.com](https://study.com/cimages/videopreview/videopreview-full/5a9ikyv71b.jpg)
Constructing an Expression for the Magnetic Field Induced by a Time-Dependent Electric Field | Physics | Study.com
![Now that we have determined the solutions to the differential equation describing the oscillations of the electric and magnetic fields with respect to. - ppt download Now that we have determined the solutions to the differential equation describing the oscillations of the electric and magnetic fields with respect to. - ppt download](https://slideplayer.com/4426705/14/images/slide_1.jpg)
Now that we have determined the solutions to the differential equation describing the oscillations of the electric and magnetic fields with respect to. - ppt download
![electromagnetism - Relationship between the magnetic and electric component of an EM field - Physics Stack Exchange electromagnetism - Relationship between the magnetic and electric component of an EM field - Physics Stack Exchange](https://i.stack.imgur.com/buT86.png)
electromagnetism - Relationship between the magnetic and electric component of an EM field - Physics Stack Exchange
![A charged particle is moving with a constant velocity v in a region having uniform electric field and magnetic field which relation is correct 1 e v b 2 e v.b 3 e b v 4 v e b A charged particle is moving with a constant velocity v in a region having uniform electric field and magnetic field which relation is correct 1 e v b 2 e v.b 3 e b v 4 v e b](https://aakash-qrc.s3.amazonaws.com/2020-06-27%2005:58:40.84CamScanner%2006-27-2020%2011.26.26.jpg)
A charged particle is moving with a constant velocity v in a region having uniform electric field and magnetic field which relation is correct 1 e v b 2 e v.b 3 e b v 4 v e b
![The ratio of contributions made by the electric field and magnetic field components to the intensity of an electromagnetic wave is : (c = speed of electromagnetic waves)a)1 : cb)1 : c2c)c : The ratio of contributions made by the electric field and magnetic field components to the intensity of an electromagnetic wave is : (c = speed of electromagnetic waves)a)1 : cb)1 : c2c)c :](https://edurev.gumlet.io/ApplicationImages/Temp/5420314_444c9a87-3531-4eeb-a433-0f5bca9f6884_lg.png)
The ratio of contributions made by the electric field and magnetic field components to the intensity of an electromagnetic wave is : (c = speed of electromagnetic waves)a)1 : cb)1 : c2c)c :
![Let vecE, vecB and vecC represent the electric field, magnetic field and velocity of an electromagnetic wave respectively. Their directions, at any instant point along the unit vectors given below in order. Let vecE, vecB and vecC represent the electric field, magnetic field and velocity of an electromagnetic wave respectively. Their directions, at any instant point along the unit vectors given below in order.](https://d10lpgp6xz60nq.cloudfront.net/ss/web/308515.jpg)