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10y ago

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What could you do to increase the electric force between two charged particles by a factor of 16?

You would need to increase the charge on one or both of the particles by a factor of 4. Electric force is directly proportional to the product of the charges, so increasing the charge will increase the force. Another way would be to decrease the distance between the particles by a factor of 4, as electric force is inversely proportional to the square of the distance between the charges.


What could do increase the electric force between two charged particles by a factor of 16?

To increase the electric force between two charged particles by a factor of 16, you would need to increase the charge on one or both of the particles by a factor of 4, since force is directly proportional to the product of the charges. Alternatively, you could decrease the distance between the particles by a factor of 4, since force is inversely proportional to the square of the distance between the charges.


What would cause the electric force between two objects to increase?

-- the charge on either or both objects could increase -- the distance between the objects could decrease (Your teacher doesn't need the answer. The question was assigned to you so that you'd learn how to figure out an answer that you don't know, and when you found it, you'd know something that you didn't know before. Now all you have to turn in for homework is some words that you don't understand and the teacher doesn't need. Nice work.)


What type of charge produced when an electric field separates positive and negative charges?

When an electric field separates positive and negative charges, it produces an electric potential difference between the charges. This results in the positive charges accumulating on one side and the negative charges accumulating on the other side, creating an overall charge separation.


Describe how the movement of electrons between two objects with balanced charges could cause the buildup of electric charge in both objects-?

When electrons move from one object to another, they can cause an imbalance in the charge distribution of those objects. This can create areas of excess positive and negative charges on the objects, leading to the buildup of electric charge. The movement of electrons helps to create an electric field that can generate more charge separation between the objects.


What are two ways you could alter the wire to increase the resistance in the electric curcuit?

You could increase the length of the wire or decrease its thickness to increase resistance in the electric circuit. Both of these changes will hinder the flow of electrons through the wire, resulting in higher resistance.


In which case or cases is electric field present?

Electric field is present whenever there are electric charges nearby. This could be due to a stationary charge creating an electric field that spans throughout space, or a changing magnetic field inducing an electric field, as described by Faraday's law of electromagnetic induction.


Can car insurance increase if an accident is the other driver's fault?

If your insurance had to pay anything out on the incident, you could be hit with higher charges.


Describe How the movement of electrons between two objects with balanced charges could cause the buildup of electric charge in both objects?

When two objects with balanced charges come into contact, electrons can transfer between them. As electrons move, one object may end up with a slightly more negative charge, while the other has a slightly more positive charge. This can lead to a buildup of electric charge in both objects, creating an imbalance that wasn't present initially.


Who would win between parrana and electric eal?

Electric Eel would win it could shock the pirhana to death


What is a stream of charged protons and electrons from the sun?

Those are two different things. Here are the answers to both: -- There is no such thing as a "flow of power". -- The flow of electric charge is "electric current".


Is it possible for the electric potential at the center of the cube to be zero?

Electric potential is a scalar which means you merely add up all the potentials at the center of the cube while ignoring the direction it is pointed in. I supposed voltage (or electric potential) could be 0 if you have an even number of positive and negative charges all with the same distance from the center (if the charges are on the corners of the square the distances would in fact be the same).