If you have any two magnets, you can always make them attract each other
or repel each other. It just depends on how you arrange them.
Every magnet has two ends, with exactly opposite characteristics. If you hang
a magnet up from a thread and wait until it settles down, one end points north
and the other end points south.
If you stick labels on the ends to identify them as the ' N ' end and the ' S ' end,
then the ' N ' ends or the ' S ' ends of any two magnets always repel, but one
' N ' end and one ' S ' end of two different magnets always attract.
Magnetism and gravity are two fundamental forces in nature.The Shell Theorem can prove both magnetic and gravitational forces.Gravitational forces are always attractive. However, magnetic forces can be either attractive or repulsive. Both forces decay as the square of the distance between particles forming a couple.
If a magnetic dipole placed in a magnetic field exhibits both rotational and translational motion, it suggests that the magnetic field is not uniform. A non-uniform magnetic field will exert torque on the magnetic dipole, causing it to rotate, and may also impart a force causing translational motion. These observations can help characterize the spatial variation of the magnetic field.
The magnetic field of a magnet is strongest at the poles, where the magnetic field lines are closest together and most concentrated.
Gravitational fields and electromagnetic fields are different in that Gravitaional fields are dependent on the masses of objects and the electromagnetic field depends on the charges of objects.
Hall effect can be used to measure the strength of a magnetic field. When a current passes through a conductor in a magnetic field, a Hall voltage is generated perpendicular to both the current and the magnetic field. By measuring this Hall voltage, the strength of the magnetic field can be calculated.
Electrostatic forces
Gravity is strictly an attractive force, meaning it always pulls objects towards each other. It differs from magnetism, which can be both attractive and repulsive depending on the orientation of the magnetic fields.
No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.
Gravitational force and magnetic force both act at a distance without direct contact. They both follow an inverse square law, meaning the strength decreases with distance squared. However, gravitational force is always attractive between masses, while magnetic force can be attractive or repulsive between charges.
The forces between charges and magnetic poles both follow an inverse square law, meaning they decrease with distance squared. Additionally, both forces can be either attractive or repulsive, depending on the relative orientations of the charges or poles. Finally, both types of forces are mediated by fields (electric or magnetic fields) that extend through space.
Both magnetic and electrostatic forces are fundamental forces of nature that act over a distance between charged or magnetized particles. Both forces follow the inverse square law, meaning that their strength decreases with distance from the source. Additionally, both forces can be attractive or repulsive depending on the polarity of the charges or magnets involved.
Electromagnetic force can be both attractive and repulsive. Like charges repel each other, while opposite charges attract each other. This force is responsible for interactions between charged particles such as electrons and protons.
Certain stimuli can be both attractive and repulsive to individuals due to a combination of personal preferences, past experiences, cultural influences, and biological instincts. These factors can vary from person to person, leading to different reactions to the same stimuli.
Magnetism and gravity are two fundamental forces in nature.The Shell Theorem can prove both magnetic and gravitational forces.Gravitational forces are always attractive. However, magnetic forces can be either attractive or repulsive. Both forces decay as the square of the distance between particles forming a couple.
The direction of flux in a magnetic field is perpendicular to both the magnetic field lines and the surface it passes through.
A magnetic field is neither: it is a vector field with both direction and quantity.
All mass has the same sign, while electric charge can be either positive or negative.