![SOLVED:(a) In magneto-static the divergence of the magnetic field, B; is zero, that is, V . B = 0. Explain the physical implications and compare this to electrostatic electric field, E (b) SOLVED:(a) In magneto-static the divergence of the magnetic field, B; is zero, that is, V . B = 0. Explain the physical implications and compare this to electrostatic electric field, E (b)](https://cdn.numerade.com/ask_images/65d748cc0dd24ef0bc4587948b2914b9.jpg)
SOLVED:(a) In magneto-static the divergence of the magnetic field, B; is zero, that is, V . B = 0. Explain the physical implications and compare this to electrostatic electric field, E (b)
![Divergence-free magnetohydrodynamics on conformally moving, adaptive meshes using a vector potential method - ScienceDirect Divergence-free magnetohydrodynamics on conformally moving, adaptive meshes using a vector potential method - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S2590055219300368-gr013.gif)
Divergence-free magnetohydrodynamics on conformally moving, adaptive meshes using a vector potential method - ScienceDirect
MathType - Gauss's Law for magnetism, the second of Maxwell's equations, states that the magnetic field has zero divergence. In other words, magnetic field has no monopoles and its basic units are
![2. The divergence of magnetic 1 pointfield lines near the ends of acurrent carrying straightsolenoid indicate *(a) the fall in the strength ofmagnetic field(b) the rise in the strength ofmagnetic field(c) Both 2. The divergence of magnetic 1 pointfield lines near the ends of acurrent carrying straightsolenoid indicate *(a) the fall in the strength ofmagnetic field(b) the rise in the strength ofmagnetic field(c) Both](https://wb-qb-sg-oss.bytededu.com/1607232487784321665/9035ef93-b485-44a5-b634-27fff282dfca.jpg)