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Describe magnetic line of induction?
Magnetic lines of induction, also known as magnetic field lines, are imaginary lines used to represent the direction and strength of a magnetic field. They always form closed loops, flowing from the north pole of a magnet to the south pole. The density of magnetic field lines indicates the strength of the magnetic field in a particular region.
SI unit of magnetic-induction?
Electromagnetic induction is the process of inducing electric current in a coil with the help of a magnet.Whenever a conductor is moved through a magnetic field, or the magnetic field fluctuates in strength (as with an AC electromagnet), a current will be induced in that conductor. Induction cooktops work by passing a large AC current through a conductor under the cooktop, creating a fluctuating magnetic field which induces an electric current through the cookware - heating the cookware by electrical resistance.The process by which a substance, such as iron or steel, becomes magnetized by a magnetic field. The induced magnetism is produced by the force of the field radiating from the poles of a magnet.CommentFurther to the original answer, it is a voltage that is induced into a conductor, NOT a current.
What is the poduction of a electric or magnetic state by the proximity without contact of an eletricified or magnetized body?
The phenomenon where an electric or magnetic state is induced in a nearby object without direct contact is known as induction. In the case of electric induction, a charged object can cause the redistribution of charges within a neutral conductor, leading to polarization. Similarly, magnetic induction occurs when a magnetic field from a magnet influences nearby materials, inducing magnetism in them. Both processes demonstrate the ability of electric and magnetic fields to affect other bodies at a distance.
Can any metal pot be used with induction cooktop?
Not all metal pots can be used with induction cooktops; only those made from ferrous metals, which contain iron, are compatible. This includes cast iron, stainless steel with magnetic properties, and certain types of enamel cookware. To test if a pot is induction-compatible, you can use a magnet; if it sticks to the bottom, it should work on an induction cooktop. Non-magnetic materials like aluminum, copper, and glass will not work unless they have a magnetic base.
What is the function of the earth induction compass?
It is a device for determining aircraft direction using the magnetic field of the earth. See link to Earth inductor compass
Does aluminum work on induction cooktops?
Yes, aluminum cookware does not work on induction cooktops because aluminum is not magnetic and induction cooktops require magnetic materials to generate heat.
What are the differences between induction and non-induction pans in terms of their heating capabilities and compatibility with induction cooktops?
Induction pans are compatible with induction cooktops because they are made of magnetic materials that respond to the magnetic field generated by the cooktop, heating up quickly and evenly. Non-induction pans, on the other hand, are not compatible with induction cooktops as they do not have magnetic properties and will not heat up efficiently on such cooktops.
What is magentic induction and an example of magnetic induction?
The magnetic flux density at any point my be defined as the number of linese of magnetic induction passing through a unit area held a right angle to the lines at the point and is represented by the vectore
What is necessary for induction?
For electromagnetic induction, you need a conductor moving in a magnetic field.
Why is magnetic induction a vector quantity?
Magnetic field induction at a point is defined as the FORCE experienced by a unit north pole placed at that point. Since force is a vector quantity, manetic field induction also becomes a vector quantitiy.
What is the purpose of the induction disk in the context of electromagnetic induction?
The purpose of the induction disk in electromagnetic induction is to generate an electric current when it is exposed to a changing magnetic field.
What does an induction magnetometer measure?
The induction magnetometer detects temporal variation of the geomagnetic field based on Faraday's law of magnetic induction.
What is the purpose of an induction cooktop converter disk and how does it work?
An induction cooktop converter disk is used to make non-induction cookware compatible with induction cooktops. It works by transferring the magnetic field generated by the induction cooktop to the non-magnetic cookware, allowing it to heat up and cook food efficiently.
Why can an induction heating process heat magnetic material faster than non magnetic material?
To heat something by induction (which is and oscillating magnetic field), the material has to react to the magnetic field. As the magnetic field is made to oscillate, the molecules of the material are pulled and vibrated in sympathy with the field and their vibration energy increases. Heat IS the vibration of molecules. Thus induction heating will work on a magnetic material but will have no effect on a material that is not magnetically susceptible.
Does aluminum work with induction cooking?
Yes, aluminum does not work with induction cooking because it is not magnetic and does not generate heat when placed on an induction cooktop.
What does induction suitable mean?
"Induction suitable" typically refers to cookware that can be used on induction cooktops. Induction cooktops rely on magnetic fields to heat the cookware directly, so to work effectively, the cookware must be made from a magnetic material like stainless steel or cast iron. Cookware labeled as "induction suitable" is compatible with induction cooktops.
What is the process by which electric current is generated by placing a wire in a magnetic field?
When a wire is placed in a magnetic field and moved relative to the field, an electric current is induced in the wire due to electromagnetic induction. This phenomenon occurs due to the interaction between the magnetic field and the moving electric charges within the wire, creating an electromotive force (EMF) that drives the current flow.
