When no net force acts on a loop of wire in a magnetic field, the loop will not experience any acceleration or movement.
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.
A magnet with many lines of force refers to a strong magnetic field that is densely packed with magnetic field lines. These field lines represent the pathways along which the magnetic force acts, flowing from the magnet's north pole to its south pole. The density of these lines of force indicates the strength of the magnet's magnetic field.
Magnetic force is the force between magnets or moving charges, while electric force is the force between electric charges. Magnetic force acts on moving charges perpendicular to both the velocity of the charge and the magnetic field, while electric force acts along the line connecting the charges.
"Magnetic force" is the force that acts on a magnetic object in a magnetic field. It can either attract or repel objects depending on the orientation of the magnetic poles of the objects involved. It is one of the fundamental forces in nature, along with gravity, electromagnetic force, and weak nuclear force.
When a charged particle moves perpendicular to a magnetic field, it experiences a magnetic force that acts perpendicular to both the particle's velocity and the magnetic field direction. This force can cause the charged particle to move in a circular path due to the magnetic field's influence on its direction of motion.
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 field. The magnetic field is the region in which the magnetic force generated by the magnet can exert influence on other objects or materials.
The space surrounding a magnet in which the magnetic force acts is called a magnetic field. The magnetic field is the region where magnetic forces are generated and can influence other magnetic materials or moving charges.
A net force acts on the electrons in the copper wire ...the electrons move depending on the direction of magnetic field and the motion of the wire and henc e there will be a current in the wire
The best term to describe the space surrounding a magnet in which the magnet force acts is "magnetic field." The magnetic field is a region around a magnet where magnetic forces are exerted on other magnets or magnetic materials.
A magnet with many lines of force refers to a strong magnetic field that is densely packed with magnetic field lines. These field lines represent the pathways along which the magnetic force acts, flowing from the magnet's north pole to its south pole. The density of these lines of force indicates the strength of the magnet's magnetic field.
Magnetic force is the force between magnets or moving charges, while electric force is the force between electric charges. Magnetic force acts on moving charges perpendicular to both the velocity of the charge and the magnetic field, while electric force acts along the line connecting the charges.
"Magnetic force" is the force that acts on a magnetic object in a magnetic field. It can either attract or repel objects depending on the orientation of the magnetic poles of the objects involved. It is one of the fundamental forces in nature, along with gravity, electromagnetic force, and weak nuclear force.
When a charged particle moves perpendicular to a magnetic field, it experiences a magnetic force that acts perpendicular to both the particle's velocity and the magnetic field direction. This force can cause the charged particle to move in a circular path due to the magnetic field's influence on its direction of motion.
No, the Earth's Magnetic Field acts just like a BAR Magnetic. It has a North and South Pole and its magnetic lines of its force field are more tightly 'compressed' near the Poles than at the Equator. See the image below for an example, or Google "magnetic field lines".
The force that acts to attract iron is magnetism. This force is produced by the movement of electrons within the material. When a material becomes magnetized, its atoms align in a way that creates a magnetic field that can attract or repel other magnetic materials.
Bjernkes force is exerted on a gas bubble when the gas bubble is in a liquid, is subjected to an acoustic pressure field, and undergoes volume pulsations. If the acoustic pressure gradient is not zero, it can couple with the bubble oscillation to produce a translational force on the bubble. This force is known as the primary Bjerknes force.