No, magnetic force and dispersion forces are not the same. Magnetic force arises from the interaction between magnetic fields or magnetic materials, while dispersion forces are weak intermolecular forces caused by temporary fluctuations in electron distribution within atoms or molecules.
No, gravity and magnetic forces are not the same. Gravity is a force of attraction between objects with mass, while magnetic forces are due to the presence of moving electric charges. Gravity acts on all objects with mass, while magnetic forces act on objects with electric charge.
Gravity, electrical force, magnetic force. These can act with direct touch. "False" forces which are dependent on the observer's motion, such as centrifugal force and g forces are also sometimes considered as non-contact There are also some nuclear forces, but they are not normally observed, and electrical and magnetic forces are really two sides of the same coin.
The magnetic forces from the North and South pole send magnetic forces around the earth, that's why on a magnet you cant stick North and North or South and South, They have the same magnetic force
The Lorentz force is the combination of electric and magnetic forces acting on a charged particle in an electromagnetic field. It describes the total force experienced by a charged particle moving through an electric and magnetic field at the same time, as described by the Lorentz force law.
The electromagnetic force is one of the fundamental forces in nature, responsible for interactions between charged particles. It encompasses both electric and magnetic forces, which are manifestations of the same fundamental force. It plays a crucial role in a wide range of phenomena, from holding atoms together to generating light and other electromagnetic waves.
London dispersion forces and van der Waals forces are related but not exactly the same. London dispersion forces are a type of van der Waals force that occurs between all molecules, while van der Waals forces encompass a broader category of intermolecular forces that also include dipole-dipole interactions and hydrogen bonding.
No, gravity and magnetic forces are not the same. Gravity is a force of attraction between objects with mass, while magnetic forces are due to the presence of moving electric charges. Gravity acts on all objects with mass, while magnetic forces act on objects with electric charge.
Gravity, electrical force, magnetic force. These can act with direct touch. "False" forces which are dependent on the observer's motion, such as centrifugal force and g forces are also sometimes considered as non-contact There are also some nuclear forces, but they are not normally observed, and electrical and magnetic forces are really two sides of the same coin.
Gravity, electrical force, magnetic force. These can act with direct touch. "False" forces which are dependent on the observer's motion, such as centrifugal force and g forces are also sometimes considered as non-contact There are also some nuclear forces, but they are not normally observed, and electrical and magnetic forces are really two sides of the same coin.
The magnetic forces from the North and South pole send magnetic forces around the earth, that's why on a magnet you cant stick North and North or South and South, They have the same magnetic force
magnetic field is a imaginary area around a manetic material where other magnetic subestences experience some force but flux is the imaginary lines of force that arise from magnet which indicate direction of force around it.
The Lorentz force is the combination of electric and magnetic forces acting on a charged particle in an electromagnetic field. It describes the total force experienced by a charged particle moving through an electric and magnetic field at the same time, as described by the Lorentz force law.
The electromagnetic force is one of the fundamental forces in nature, responsible for interactions between charged particles. It encompasses both electric and magnetic forces, which are manifestations of the same fundamental force. It plays a crucial role in a wide range of phenomena, from holding atoms together to generating light and other electromagnetic waves.
To calculate the net force for forces in the same direction, simply add the magnitudes of the individual forces together to find the total force acting in that direction. The direction of the net force will be the same as the original forces.
The magnetic force is F=qV.B = -qvB cos(VB).
Balanced forces mean the net force is zero, so they are not the same unless net force is zero. Net force is the vector sum of all forces on an object
When two forces act in the same direction, they will combine to produce a resulting force equal to the sum of the individual forces. This combined force will act in the same direction as the individual forces.