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What will happen to the electrostatic force between the two charges if a metal slab is placed between them?
force between two charged particles always depends on their charges , distance between them and the nature of material enclosed in between them (shortly permittivity ).
permitivity is defined as the resistance encountered when forming an electric field in the medium, in other words it is defined as how much flux is generated in the medium , this flux generated would be more if the material is a metal.So, metals have high permitivity when compared to non metals or free space .
as force is inversely proportional to permitivity , metals increase permitivitty so the net force between the two charges is reduced
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When two charged objects are placed next to each other what happens?
If the objects have opposite charges, they will attract each other due to the force of electrostatic attraction between opposite charges. If they have the same charge, they will repel each other due to the force of electrostatic repulsion between like charges.
When two like charges are placed together what happens?
When two like charges are placed together, they repel each other due to the force of electrostatic repulsion. This force pushes the charges away from each other, resulting in a net outward force between the two charges.
The electrostatic force between two charges located 2 meters apart is 0.10N. What will a 2-C charge and an 8-C charge attract each other when placed the same distance apart?
The electrostatic force between two charges is directly proportional to the product of the charges. The force between the 2-C and 8-C charges will be 4 times stronger than the initial force since 2*8 = 16. So, the force between them will be 0.10 N * 4 = 0.40 N.
What will happen to the objects with the same charges that are placed near to each other?
A repulsive force would exist as like charges always repel each other.
What happens when two like charges are placed next to each other?
When two like charges are placed next to each other, they will repel each other due to the electrostatic force. The like charges will experience a force pushing them away from each other, as same charges repel each other according to Coulomb's law.
When two charged objects are placed next to each other what happens?
If the objects have opposite charges, they will attract each other due to the force of electrostatic attraction between opposite charges. If they have the same charge, they will repel each other due to the force of electrostatic repulsion between like charges.
When two like charges are placed together what happens?
When two like charges are placed together, they repel each other due to the force of electrostatic repulsion. This force pushes the charges away from each other, resulting in a net outward force between the two charges.
The electrostatic force between two charges located 2 meters apart is 0.10N. What will a 2-C charge and an 8-C charge attract each other when placed the same distance apart?
The electrostatic force between two charges is directly proportional to the product of the charges. The force between the 2-C and 8-C charges will be 4 times stronger than the initial force since 2*8 = 16. So, the force between them will be 0.10 N * 4 = 0.40 N.
What will happen to the objects with the same charges that are placed near to each other?
A repulsive force would exist as like charges always repel each other.
What is the electrostatic force of attraction between two charges of 1C and 2C placed at 5 m distance?
F=(k*1*2)/25 where k=9*10^9 in SI units
What happens when two like charges are placed next to each other?
When two like charges are placed next to each other, they will repel each other due to the electrostatic force. The like charges will experience a force pushing them away from each other, as same charges repel each other according to Coulomb's law.
What happens if you place two like charges near each other?
If two like charges (positive or negative) are placed near each other, they will repel each other due to the electrostatic force. The force of repulsion between the charges will cause them to move away from each other, following the principle that like charges repel each other.
What happens to force between two charged bodies when a glass plate is introduced in between them?
Electrostatic or magnetic charges ? the answers are different.If electrostatic charges, I GUESS that an antistatic-coated glass plate would not affect the charges at all.If it were left to accumulate charge, an insulating glass plate placed between the two charges would assume a potential between that of the two bodies. [Assuming it were free to accumulate a charge.]If magnetic charges, the glass plate would have no effect. [But the 'glass plate' equivalent would be a soft iron sheet, or a wire mesh screen of soft iron. ...Continue with your analysis of the analogy.
What is coulombs law?
Coulomb's Law states that the magnitude of the electrostatic force between two point electric charges is directly proportional to the product of the magnitudes of each charge and inversely proportional to the square of the distance between the charges. A link is provided to the Wikipedia article.
What is the force between two charge particle when medium is placed between them?
The force between two charged particles in a medium will depend on the properties of the medium, such as its dielectric constant. The force will be reduced compared to if the particles were in a vacuum, due to the screening effect of the medium on the electric field between the charges. The force will be weaker as the dielectric constant of the medium increases.
What is produced when same charges are placed near each other?
When same charges are placed near each other, they will repel each other. This can lead to the creation of an electric field between the charges, causing them to push away from each other.
Two negatively charged particles are placed close together. Which of the following best describes their interaction?
The negatively charged particles will repel each other due to their like charges. This repulsion is the result of the electrostatic force acting between the two particles.
