An ampere-turn is the unit of magnetomotive force, calculated by multiplying the number of turns in a coil by the current flowing through it. It represents the strength of a magnetic field generated by an electric current in a coil.
A magnetic force is the exertion of a force on a magnetic object due to the presence of a magnetic field. The strength and direction of the magnetic force depend on the strength and orientation of the magnetic field. In essence, a magnetic field produces the magnetic force that acts on magnetic objects within its influence.
Magnetic force is the force experienced by a magnetic object when placed in a magnetic field. The strength and direction of the force depend on the characteristics of the object and the field. The magnetic field is the region around a magnetic object or current-carrying conductor where another magnetic object experiences a magnetic force.
The force that affects only objects with magnetic domains is the magnetic force. This force arises from the interactions between the magnetic fields of objects with magnetic domains and can attract or repel objects with magnetic properties.
A magnetic field is a region around a magnet or a current-carrying wire where a magnetic force can act on other magnets or moving charges. The magnetic force is the force exerted by a magnetic field on a magnetic object or a moving charge. So, the magnetic field is what allows the magnetic force to act on objects within its influence.
No of lines of force can pass through the unit area of magnetic field
The basic metric measurement unit for magnetic force is the ampere per meter (A/m).
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An ampere-turn is the unit of magnetomotive force, calculated by multiplying the number of turns in a coil by the current flowing through it. It represents the strength of a magnetic field generated by an electric current in a coil.
No, magnetizing force and magnetic force are not the same. Magnetizing force is the force that aligns magnetic domains in a material to make it magnetic, while magnetic force is the force exerted between magnetic objects in a magnetic field.
Magnetomotive force per unit length is a measure of the magnetic field intensity produced per unit length of a magnetic material. It is analogous to electromotive force in electric circuits and is commonly denoted by the symbol H. It is an important parameter in determining the magnetizing capability of a material.
The newton is a unit of force. Examples of forces are gravitational force, electric forces, magnetic forces, forces caused by pressure.
Newtons per ampere-meter is a unit of measurement for magnetic field strength, also known as magnetic field intensity. It represents the force experienced by a current-carrying conductor per unit length and unit current in a magnetic field. It is commonly denoted as N/Am.
A magnetic force is the exertion of a force on a magnetic object due to the presence of a magnetic field. The strength and direction of the magnetic force depend on the strength and orientation of the magnetic field. In essence, a magnetic field produces the magnetic force that acts on magnetic objects within its influence.
Magnetic force is the force experienced by a magnetic object when placed in a magnetic field. The strength and direction of the force depend on the characteristics of the object and the field. The magnetic field is the region around a magnetic object or current-carrying conductor where another magnetic object experiences a magnetic force.
Magnetic force is the force exerted between magnetic poles, producing magnetization of force, either of attraction or of repulsion.
Typically, an electric current creates a magnetic force. Also, magnetic domains aligned correctly and properly can cause a magnetic force.