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What is the force repulsion if each sphere is charged double the above amount and the distance between them is halved?
It's very fortunate that the answer doesn't depend on the amount of the original
charge, because I'm really having a lot of trouble reading the above amount.
The answer only depends on the changes, and following the changes you've described,
the force of repulsion between the spheres is unchanged. If the initial force is marked
there in the book you copied the question from, then the final force is exactly the same number.
What else can I help you with?
What 2 factors affect the amount of force between 2 charged objects?
The amount of force between two charged objects is influenced by the magnitude of the charges on the objects and the distance between them. Increasing the charge of the objects or decreasing the distance between them will result in a stronger force of attraction or repulsion.
What is the potential between two charged spheres?
The potential between two charged spheres is the amount of electrical energy per unit charge that can be stored or transferred between them. It is determined by the distance between the spheres and the amount of charge they possess.
How do charged spheres interact with each other in an electric field?
Charged spheres interact with each other in an electric field through the attraction or repulsion of their charges. Like charges repel each other, while opposite charges attract. The strength of the interaction depends on the amount of charge on each sphere and the distance between them.
What happens to the force between charged and uncharged objects as the distance between them decrease?
As the distance between charged and uncharged objects decreases, the force between them generally increases. This is because the electric field produced by the charged object becomes more concentrated in the region closer to the uncharged object, leading to a stronger interaction between them.
What is the distance between two spheres each with a charge?
The distance between two charged spheres affects the strength of the electrostatic force between them, given by Coulomb's law. The force decreases as the distance between the spheres increases. The distance influences the magnitude of the force between the spheres.
What 2 factors affect the amount of force between 2 charged objects?
The amount of force between two charged objects is influenced by the magnitude of the charges on the objects and the distance between them. Increasing the charge of the objects or decreasing the distance between them will result in a stronger force of attraction or repulsion.
Which is the force of repulsion between two positively-charged particles?
electric force
What is the potential between two charged spheres?
The potential between two charged spheres is the amount of electrical energy per unit charge that can be stored or transferred between them. It is determined by the distance between the spheres and the amount of charge they possess.
How do charged spheres interact with each other in an electric field?
Charged spheres interact with each other in an electric field through the attraction or repulsion of their charges. Like charges repel each other, while opposite charges attract. The strength of the interaction depends on the amount of charge on each sphere and the distance between them.
What happens to the force between charged and uncharged objects as the distance between them decrease?
As the distance between charged and uncharged objects decreases, the force between them generally increases. This is because the electric field produced by the charged object becomes more concentrated in the region closer to the uncharged object, leading to a stronger interaction between them.
What is the distance between two spheres each with a charge?
The distance between two charged spheres affects the strength of the electrostatic force between them, given by Coulomb's law. The force decreases as the distance between the spheres increases. The distance influences the magnitude of the force between the spheres.
Which changes will decrease the electric force between two positively charged objects?
Increasing the distance between the objects, or decreasing the amount of charge on the objects will reduce the electric force between two positively charged objects. Adding negatively charged objects nearby can also reduce the electric force by attracting the positive charges.
Why is it would be difficult to inject the nucleus of uranium with a proton?
It would be difficult to inject the nucleus of uranium with a proton because the positive charge of the proton would repel the positively charged uranium nucleus, which is also positively charged. This repulsion creates a barrier that needs to be overcome, requiring a high amount of energy for a successful injection.
Why is the amount of energy necessary to keep some atoms together high?
The amount of energy necessary to keep some atoms together is high due to the strong forces at play, particularly the electromagnetic force between positively charged protons in the nucleus and negatively charged electrons. Additionally, in heavier atoms, the presence of more protons leads to increased repulsion among them, requiring more energy to overcome this repulsion and maintain stability. Furthermore, in cases of nuclear forces, such as those binding protons and neutrons together in the nucleus, the strong nuclear force is powerful but short-range, necessitating significant energy to overcome the limitations of distance and maintain cohesion.
What is the interaction between charged objects?
Charged objects can interact through the electric force, which can be attractive or repulsive depending on the charges (opposite charges attract, like charges repel). The strength of the interaction depends on the amount of charge on each object and their distance from each other.
What is it called when the cost of a bus ride is reasonable?
You thing that the amount charged for the distance traveled was acceptable, not expensive
What are some factors that affect coulomb slaw?
Factors that affect Coulomb's Law includes the particle charge and the distance between the charges. Coulomb's Law states that the force between the charged particles is related to the amount of charge each of the particles carries.
