What is the minimum force between 2 charges 1m apart?

What is the minimum force between 2 charges 1m apart?

Fmin=2.3×10^−28N.

How do you find the minimum force between two charges?

  1. Min force in electrostatics is the force between two electrons.
  2. F= (1/4πε₀)(e²/r²)
  3. = 9×10⁹ × {(1.6×10⁻¹⁹)²/1)}
  4. (Assuming the distance between them 1 m)

What is the electric force between two charges is given by in free space?

Coulomb’s Law is basically the force (F ) exerted by one electric charge on the other independent of the presence or absence of a dielectric medium containing the charge.

Is there any lower limit of electric force between two charges 1m apart in vacuum?

Answer : Yes, there is a lower limit to the electric force between two particles.

What is the minimum charge on a particle * 1 point?

The minimum charge that a particle can have is the 1.6×10−19 coulomb. A given particle cannot have a charge lower than this.

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What is minimum possible force between?

Answer: Newtons (approx.) Explanation: According to Coulomb’s law, the force is minimum if both the charges are minimum, when the charges are kept at a fixed distance apart. Thus, the minimum possible Coulombic force should be that between two electrons when kept 1 meter apart.

What is the minimum amount of charge that can be given to a body?

The least possible value of a charge is the charge present on an electron which is 1.6 x 10-19 coulomb as according to the quantization law charge on a body has to be an integral multiple of the charge of an electron…..

When the distance between two charged particles is halved the force between them becomes?

The force between the two charges is directly proportional to the product of the charges and inversely proportional to the square of the distance between them. Hence, if distance between charges is halved (charges remaining kept constant), the force between the two charges is quadrupled.

What is the lower limit of electrical force between two charged particles?

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Yes, there’s a lower limit to the electric force between two particles placed at a separation of 1 cm, which is equal to the magnitude of force of repulsion between two electrons placed at a separation of 1 cm.

Does the force on a charge depend on the magnitude of the charge?

The magnitude of the force is linearly proportional to the net charge on each object and inversely proportional to the square of the distance between them. (Interestingly, the force does not depend on the mass of the objects.)

What is the force between two point charges which are 1c each separated by 1m in air?

Two point charges each of 1 C separated by 1 m distance experience a force of 5. 6 ×109 N in vacuum.

When two charges are kept at a distance of 1m apart?

Originally Answered: Two charges when kept at a distance of 1m apart in vacuum have some force of repulsion. If the force of repulsion between these two charges be same when placed in an oil of dielectric constant 4, the distance of separations is?

What is the minimum Coulombic force between two equal charges?

As the very fundamental charge as discovered in the universe is the charge on an electron,so the minimum coulombic force as expected between the two equal charges placed at 1m from each other would be that between the two electrons at a distance of 1m.Try to find that value to get the answer.

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What is the electrostatic force between two charges?

The electrostatics force between two charges is given by Coulomb’s law. According to it Thus the strength and the direction of the electric force between the two chages will depend on the magnitude of their chagres. Queries asked on Sunday & after 7pm from Monday to Saturday will be answered after 12pm the next working day.

How do you find the force between two charged particles?

The force between two charged particles is inversely proportional to the square of the distance (radius) between them. To calculate the force, divide the sum of the charges by the square of the radius between them. So, when the radius is increased by two, the starting force is divided by the square of two, four.