yes, with no trouble at all.
Yes, magnetic fields can pass through rubber materials as long as the rubber is not a magnetic material itself. Rubber is typically a non-magnetic material and does not significantly affect the passage of magnetic fields.
Yes.
No, water does not block a magnetic field. In fact, water is generally transparent to magnetic fields, meaning they can pass through it without being significantly affected.
Materials such as iron, nickel, and cobalt are known as ferromagnetic materials that allow the magnetic force to pass through easily. These materials have domains that can align with an external magnetic field, enhancing the overall magnetic properties.
Yes, a magnetic field can pass through water. However, the presence of water may weaken the strength of the magnetic field depending on the specific properties of the material and the distance involved.
Magnets can attract objects through cardboard because cardboard is not a material that blocks the magnetic field. The magnetic field generated by the magnet can easily pass through the cardboard and interact with other magnetic objects on the opposite side.
Yes, magnetic forces can pass through iron. Iron is a material that is highly receptive to magnetic fields, which means that magnetic forces are able to easily pass through it. This property of iron makes it a useful material in applications involving magnetic fields.
Yes
No, magnetic fields can only pass through non-magnetic objects (e.g cloth)
yes answer 2: No, magnetism can only pass through non magnetic materials.
No of lines of force can pass through the unit area of magnetic field
You need copper wire to pass through a magnetic field
We call it induction when we pass a conductor through a magnetic field to produce voltage.
1. The orientation giving the maximum magnetic flux would be 90 degrees or perpendicular to the magnetic field because that gives the maximum amount of magnetic field lines able to pass through the area of the coil. The greater density of field lines gives a greater magnetic field. The orientation that would give a magnetic flux of zero is the plane of the coil to be parallel to the magnetic field, making no lines pass through the coil and thus no flux.
The soft iron core in an electromagnet enhances the magnetic field strength by concentrating and directing the magnetic flux. It increases the magnet's ability to attract and hold magnetic materials, making it more effective in applications like electric motors, generators, and transformers.
Don't know, good question.
You coil a wire and pass it through a magnetic field you will produce electricity.
An electric current has no trouble at all passing through a magnetic field, however it is deflected. This is how the old CRT picture tubes that used to be used in TVs and computer monitors operated. In space electric currents deflected by magnetic fields actually follow helical paths along the lines of magnetic flux.
The induced current is maximum when the axis of the conductor, its velocity, and the magnetic field lines are all mutually perpendicular.