Magnetic Force Vs Electric Force: What’s the Difference?
Magnetism is all around us – from the invisible force that keeps a refrigerator magnet attached to a fridge, to the everyday objects like your refrigerator and your office desk that use magnets to keep their contents in place. In this article, we’ll explore the two most common types of magnetism – magnetic force and electric force.
What is Magnetic Force?
Magnetic force is the force that arises between magnets when they are placed near one another. The strength of this force is determined by the amount of current flowing through the magnets. Magnetic force can be used to move objects, and it is also responsible for many of the phenomena associated with magnetism, such as electricity and magnetism. Electric force, on the other hand, is the force that arises between electric charges when they are placed near one another. The strength of this force is determined by their mass and their distance from each other. Electric force can be used to move objects, and it is also responsible for many of the phenomena associated with electricity, such as lightning and static discharge.
What is Electric Force?
Electric force is the force that acts between electrically charged particles, atoms, or molecules. This force is what causes an electric current to flow. Electric force is also responsible for the electron repulsion and attraction that are fundamental forces in chemistry and physics.
Magnetic force is the force that acts between magnets and other magnetic materials. This force is what causes a magnetic field to form. Magnetic force is also responsible for the magnetic induction and magnetism that are fundamental forces in physics and engineering.
What is Electric Force?
Electric force is the force that causes electric charges to attract each other. This force is created when two pieces of metal are placed close to each other and a current is run through them. The metal contracts, or pulls towards the current, because of the electric force.
How do Magnetic Forces Work?
Magnetic forces are created when a ferromagnetic material is subjected to a strong external magnetic field. The magnetism causes the material to become polarized, with different parts of the material assigned to different directions. This creates a force that pulls objects in the same direction as the external field.
Electric forces are created when two or more charged particles come into contact. This can be anything from two atoms coming into contact, to a battery providing an electric current. When these charged particles come into contact, they create an imbalance in charge that causes a force to be exerted on them.
How do Electric Forces Work?
Electric forces are the force that keeps an electric current flowing in a wire. The electric force is created when electrons are pushed and pulled by the electric field. Magnetic forces are the force that holds magnets together. The magnetic force is created when tiny magnets push and pull against one another.
What are the Differences Between Magnetic and Electric Forces?
Electric and magnetic forces are two different types of forces that work with the flow of electric current. They both have their own strengths and weaknesses, which you can learn more about in this article.
Electricity is created when an electric current flows through a wire. This flow of electric current creates a force that pushes against objects that are close to the wire. This force is called an electric force.
Magnetism is created when an electric current flows through a magnet. This flow of electric current creates a force that pulls objects close to the magnet. This force is called a magnetic force.
The strength of an electric or magnetic force depends on how strong the electric or magnetic current is flowing, respectively. The stronger the current, the stronger the force will be.
Electric and magnetic forces are two different types of forces that work with the flow of electric current
Applications of Magnetic and Electric Forces
Electric and Magnetic Forces are two different types of forces that have different applications. Electric forces are responsible for the motion of charged particles, such as electrons, while magnetic forces are responsible for the movement of metal ions and molecules. Here is a look at some of the differences between electric and magnetic forces:
-Electric force is much weaker than magnetic force. This is why you need more voltage (electric strength) to move an object with electric force than with magnetic force. For example, if you try to move a metal magnet with only your hand, it will be very difficult to do because the magnetic force is much stronger. However, if you use an electric motor to try to move the magnet, it will be easier to do because the electric force is much weaker.
-Electric fields can be directed whereas magnetic fields cannot be directed. This is why electric motors work better in circular patterns because they can create a rotating electric field that will push objects along the circle. Magnetic fields can only push objects in one direction, which is why they are used inlevators and cars’ steering systems.
-Electric charges can flow through materials whereas magnetic charges cannot flow through materials. This is why you can’t put a magnet on
Conclusion
There are a few key differences between magnetic force and electric force. For example, magnetic force is the force that attracts metal objects to each other. Electric force, on the other hand, is the push and pull of electricity. Additionally, electric forces can be destructive (like when you sparks from an electrical outlet), while magnetic forces are not always so harmful (like when you pick up a magnet). So while both types of forces are important in everyday life, knowing the difference between them will help you use them more effectively.