![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
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? -
![Figure 1.1 from Influence of mobile phone electromagnetic field exposures on nervous function in the human brain and heart | Semantic Scholar Figure 1.1 from Influence of mobile phone electromagnetic field exposures on nervous function in the human brain and heart | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/331b2158a7f12efe7709b93028c5c79fec3a03ef/23-Figure1.1-1.png)
Figure 1.1 from Influence of mobile phone electromagnetic field exposures on nervous function in the human brain and heart | Semantic Scholar
![homework and exercises - Relation between magnitudes of electric field and magnetic field in free space - Physics Stack Exchange homework and exercises - Relation between magnitudes of electric field and magnetic field in free space - Physics Stack Exchange](https://i.stack.imgur.com/jKvuw.jpg)
homework and exercises - Relation between magnitudes of electric field and magnetic field in free space - Physics Stack Exchange
![electromagnetism - Confused about relationship between electric and magnetic field for time harmonic waves - Physics Stack Exchange electromagnetism - Confused about relationship between electric and magnetic field for time harmonic waves - Physics Stack Exchange](https://i.stack.imgur.com/9VPye.png)
electromagnetism - Confused about relationship between electric and magnetic field for time harmonic waves - Physics Stack Exchange
![SOLVED: Suppose that in the absence of any charges (free space) an electric field exists in the form E = Eo sin(kz @t)i What is the direction of propagation of this electromagnetic SOLVED: Suppose that in the absence of any charges (free space) an electric field exists in the form E = Eo sin(kz @t)i What is the direction of propagation of this electromagnetic](https://cdn.numerade.com/ask_images/a7b1f07f174e4ba09260d1452e465e84.jpg)