When two charged bodies at different potentials are connected by a conducting wire then the charge flows from one body to another body?

When two charged bodies at different potentials are connected by a conducting wire then the charge flows from one body to another body?

When two charged bodies at different potentials are connected by a conducting wire, then the charge flows from one body to another body. till the charge is completely transferred from one body to another. as long as temperatuer difference exists between them. as long as there exists a potential difference between them.

When the two bodies attain the same potential the flow of current?

No. You will have no net flow of charge between two bodies if they have equal potential. If there is no potential difference between the two objects, then there is no electric field.

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What happens if two bodies with different levels of charge touch each other?

In contrast to the attractive force between two objects with opposite charges, two objects that are of like charge will repel each other. That is, a positively charged object will exert a repulsive force upon a second positively charged object. This repulsive force will push the two objects apart.

What prevents the charge from flowing?

Charge will not flow in a circuit unless there is an energy source capable of creating an electric potential difference and unless there is a closed conducting loop through which the charge can move. 2. Current has a direction.

When two charged bodies are kept in contact with each other what determines the direction of flow of charge between them?

The potentials of the two conductors determine the direction of flow of electrons. The electrons flow from the conductor at low potential to the conductor at high potential.

Which quantity defines the flow of charge?

Electric current
Electric current is the movement of electric charge through a conductive medium. We also use the term “current” as a quantity to describe the rate at which charge flows through a medium. The SI unit for current is the ampere (A), which is equal to a coulomb per second (C/s).

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What is the relation between potential difference work done and charge?

The potential difference between two points in an electric field is defined as amount of work done in moving a unit charge from one point to other point. Potential difference = Work Done/ Quantity of Charge moved.

What happens when two positively charged bodies are brought near each other Class 10?

Electromagnetic force is associated with attraction or repulsion based on charges, where opposite charges attract and similar charges repeal, and thus two positively charged bodies repel each other.

What is the relation between potential difference and current?

The current in a circuit is directly proportional to the electric potential difference impressed across its ends and inversely proportional to the total resistance offered by the external circuit. The greater the battery voltage (i.e., electric potential difference), the greater the current.

What happens to charge when two charged bodies touch each other?

And two bodies will redistribute charge to become identically charged. When two charged bodies touch each other or when they are connected with each other through a conducting wire, the charges flow between the bodies until the bodies have equal potential, i.e., the potentials of the two bodies become equal.

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Why does electric charge flow direction depend on the potential difference?

Why does electric charge flow direction depend on the potential difference […] Because a system will always want to minimize it’s energy. Just like a book falls to lower height (lower gravitational potential energy), a charge will move towards a point which it is repelled the least from (lowest electrical potential energy).

How does the difference in charge between two points affect potential?

The difference in charge between two points determines how much energy you (would need to move them together) or (could get out of moving them apart). That is why we call it electric potential. This also determines the direction that charge will want to move in. The answer you want , I think can be found using energy considerations.

What is the difference between electric potential and charge?

The unit of electric potential (volt) has charge as a unit within it. The difference in charge between two points determines how much energy you (would need to move them together) or (could get out of moving them apart). That is why we call it electric potential. This also determines the direction that charge will want to move in.