When the electrical charge is stationary in a magnetic field then no force would act on the charge. But if the charge is in motion that too in an inclined direction with the magetic field then a force would act on the moving charge. This force is named as Lorentz magnetic force
When you turn on electricity in an electromagnet, it creates a magnetic field around the coil of wire. This magnetic field allows the electromagnet to attract or repel other magnetic objects depending on the polarity of the current flowing through the coil.
A magnet with an on-off switch works by controlling the flow of electricity to the magnet. When the switch is turned on, electricity flows through the magnet, creating a magnetic field. This magnetic field attracts or repels other magnetic objects. When the switch is turned off, the flow of electricity stops, and the magnetic field disappears, causing the magnet to no longer attract or repel objects.
Electromagnets are the result of electricity flowing through a coil of wire, creating a magnetic field. This magnetic field can attract or repel objects and can be controlled by adjusting the flow of electricity. Electromagnets are used in various applications, such as in motors, generators, and magnetic resonance imaging.
When the electricity is turned off in an electromagnet, the magnetic field it generates disappears, causing the magnetism to cease. This means it will no longer attract or repel other magnetic objects in its vicinity.
An electromagnet works by using electricity to create a magnetic field. When an electric current flows through a coil of wire, it generates a magnetic field around the wire. This magnetic field can attract or repel other magnetic materials, just like a permanent magnet. The strength of the magnetic field can be controlled by adjusting the amount of current flowing through the wire.
When you turn on electricity in an electromagnet, it creates a magnetic field around the coil of wire. This magnetic field allows the electromagnet to attract or repel other magnetic objects depending on the polarity of the current flowing through the coil.
A magnet with an on-off switch works by controlling the flow of electricity to the magnet. When the switch is turned on, electricity flows through the magnet, creating a magnetic field. This magnetic field attracts or repels other magnetic objects. When the switch is turned off, the flow of electricity stops, and the magnetic field disappears, causing the magnet to no longer attract or repel objects.
A magnet has a magnetic field around it. The magnetic field causes a magnetic force that can attract objects to the magnet.
An electromagnet can attract steel and iron due to electricity. When an electric current flows through the coil of wire in an electromagnet, it creates a magnetic field that can attract ferromagnetic materials like steel and iron. The strength of the magnetic field can be controlled by adjusting the amount of electric current flowing through the electromagnet.
Electromagnets are the result of electricity flowing through a coil of wire, creating a magnetic field. This magnetic field can attract or repel objects and can be controlled by adjusting the flow of electricity. Electromagnets are used in various applications, such as in motors, generators, and magnetic resonance imaging.
When the electricity is turned off in an electromagnet, the magnetic field it generates disappears, causing the magnetism to cease. This means it will no longer attract or repel other magnetic objects in its vicinity.
The wire magnetics will make move attract or repulse see speakers
it can be called oppisites because the north magnetic field and south magnetic field attract, or can be called attractions, because they attract
An electromagnet works by using electricity to create a magnetic field. When an electric current flows through a coil of wire, it generates a magnetic field around the wire. This magnetic field can attract or repel other magnetic materials, just like a permanent magnet. The strength of the magnetic field can be controlled by adjusting the amount of current flowing through the wire.
A common example of this is a magnet. Magnets have a magnetic field around them and can attract certain materials like iron, nickel, and cobalt due to their magnetic properties.
The magnetic field of permanent magnets is important because it determines their ability to attract or repel other magnetic materials. This field is created by the alignment of magnetic domains within the magnet, which allows it to exert forces on other magnetic objects. The strength and orientation of the magnetic field influence how strongly the magnet can attract or repel other materials.
An electromagnet works by using electricity to create a magnetic field around a core material, such as iron. When the electricity flows through the wire wrapped around the core, it generates a magnetic field. The function of an electromagnet is to attract or repel objects that are magnetic or to convert electrical energy into mechanical energy, such as in electric motors or generators.