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Like poles repel; opposite poles attract. They are similar to electric charges, for they can both attract and repel without touching. ... Electric charges produce electrical forces and regions called magnetic poles produce magnetic forces.
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Magnetic poles are similar to electric charges in that they both can repel and attarct one another?
Yes, magnetic poles, like electric charges, can attract or repel each other based on their orientation. Similar poles repel each other, while opposite poles attract. This behavior is a common characteristic of both magnetic and electric fields.
What are the similarities of magnetic poles and electric charge?
Magnetic poles and electric charges both act the same as in:"opposites attract and same repel."Electric charge is the source of magnetic poles. The Magnetic pole is W=zq where z is the free space impedance 375 Ohms and q is the charge. W units is the Weber or volt-second.
What is the behavior of electric charges is similar to that of magnet poles?
Like charges repel each other while opposite charges attract each other.
How are Electric charge similar to magnetic poles how are they different?
Main similarity: Like charges repel each other, different charges attract each other.Main difference: Magnetic "charges" can't be separated. At least, so far it has not been achieved.
How are magnetic field lines like electric field lines?
Magnetic field lines are similar to electric field lines in that they both represent the direction and strength of the field at various points in space. Both types of field lines are used to visualize the field's behavior and provide insights into the field's properties. However, magnetic field lines form closed loops, while electric field lines start and end on charges.
Can an electric field be compressed?
No, an electric field cannot be compressed like a physical object. It exists as a property of the space around charged particles and its strength diminishes as you move away from the source charges. However, the intensity of the field can be increased by bringing more charges close together.
How are magnetic poles and electric charges similar?
Main similarity: Like charges repel each other, different charges attract each other.Main difference: Magnetic "charges" can't be separated. At least, so far it has not been achieved.
How are electrical charges similar to magnetic poles?
There are two oppositely "charged" poles for both electric and magnetic. For magnetism we call the poles North and South, while for static electricity we call the poles positive and negative. Of course, you can walk away with the electrically charged positive pole, while you can't walk away with the North "charged" pole. There are differences. There is (apparently) no magnetic monopole.
How electric current causes magnetic field around conductor?
When an electric current flows through a conductor, it creates a magnetic field around the conductor. This is due to the interaction between the moving charges (the electrons in the current) and the magnetic fields they produce. The magnetic field strength is directly proportional to the current flowing through the conductor.
How are magnets different from electric charge?
Similar: You have a force from one polarity to another. The electric field is a natural force for charged particles. The magnetic field is the force from magnetic material. Different: The magnetic is a cross-product vector, with direction given by the right hand rule by convention. This contrasts with the electric field E, a polar vector.
How are the forces between charges similar to to the forces between magnetic poles?
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.
How are magnets and statics electricity similar?
Both magnets and static electricity repel like charges and attract to opposite charges. Magnets repel the same poles and attract opposite poles. Static electricity repels like charges and attracts unlike charges.
