If the magnetic field is made vertical, it will exert a force perpendicular to the direction of current flow in the wire. This force will cause the wire to move up and down, vibrating vertically. The frequency of this vibration will be directly proportional to the strength of the magnetic field and the current flowing through the wire.
If the magnetic field is made vertical in a sonometer experiment, the wire will vibrate in a direction perpendicular to the magnetic field. This is because the Lorentz force, which causes the wire to move, is perpendicular to both the current flowing in the wire and the magnetic field. This results in the wire moving up and down, or side to side, depending on the setup.
A magnetic field is made up of imaginary lines of force that extend from a magnet or current-carrying conductor. These lines of force help to describe the direction and strength of the magnetic field.
No, the magnetic field is not made of matter. It is a force that is produced by the movement of electric charges.
The magnetic field in a moving coil galvanometer is made radial by surrounding the coil with a cylindrical magnetic core. When current flows through the coil, it creates a magnetic field perpendicular to the coil. This magnetic field interacts with the radial magnetic field of the core, causing a torque on the coil that deflects the pointer.
Copper is not naturally magnetic, but it can be made magnetic by introducing a magnetic field to it. This can be done by placing the copper in a strong magnetic field or by alloying it with other metals that are magnetic, such as iron or nickel.
If the magnetic field is made vertical in a sonometer experiment, the wire will vibrate in a direction perpendicular to the magnetic field. This is because the Lorentz force, which causes the wire to move, is perpendicular to both the current flowing in the wire and the magnetic field. This results in the wire moving up and down, or side to side, depending on the setup.
A magnetic field is made up of imaginary lines of force that extend from a magnet or current-carrying conductor. These lines of force help to describe the direction and strength of the magnetic field.
No, the magnetic field is not made of matter. It is a force that is produced by the movement of electric charges.
iron
The magnetic field in a moving coil galvanometer is made radial by surrounding the coil with a cylindrical magnetic core. When current flows through the coil, it creates a magnetic field perpendicular to the coil. This magnetic field interacts with the radial magnetic field of the core, causing a torque on the coil that deflects the pointer.
The Outer Core has magnetic field and it is made out of iron and nickel
It is made by the movement of the earths core and magma field
Copper is not naturally magnetic, but it can be made magnetic by introducing a magnetic field to it. This can be done by placing the copper in a strong magnetic field or by alloying it with other metals that are magnetic, such as iron or nickel.
No, a magnetic field is induced by moving electric charges. If a ferrous material (one containing iron) is placed in a magnetic field, the individual magnetic dipoles can be aligned in accordance with the magnetic field. Since the molten iron in the earth's core carries charges, a magnetic field is induced around the earth (with field lines coming OUT of the south pole and into the north). This magnetic field can align magnetic dipoles just as any man-made electromagnet can.
The earth's magnetic field is caused by convection currents in our core. The core is made out of iron, which is a magnetic metal.
Magnetic energy attracts objects made of iron. When a magnetic field is present, objects containing iron are drawn towards the source of the magnetic field.
It is made by the movement of the earths core