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The strength of the electric field of a charged particle becomes greater as the distance from the particle increases.?
No, the strength of the electric field of a charged particle becomes weaker as the distance from the particle increases. The electric field strength follows an inverse square law relationship with distance, meaning it decreases as the distance from the charged particle increases.
The strength of the electric field of a charged particle becomes greater as the distance from the particle decreases?
Yes, the strength of the electric field of a charged particle does increase as you move closer to the charged particle. This is because electric fields follow an inverse square law, meaning that the field strength is inversely proportional to the square of the distance from the charged particle. As you move closer, the distance decreases, leading to an increase in the electric field strength.
Is it true the strength of the electric field of a charged particle becomes greater as the distance from the particles increases?
I really doubt it. If it were, then the strength of the electric field from a charged particle on the far side of the Andromeda Galaxy would be totally unbearable, and it would be completely impossible to stick a charged balloon to the wall in my house.
Does the strength of a electric field of a charged particles become greater as the distances from the particle decreases?
Yes, the strength of an electric field from a charged particle is stronger closer to the particle and weaker as you move further away. The electric field decreases with distance according to the inverse square law, which means it decreases as the square of the distance from the charged particle.
If the acceleration of a charged particle between plates in a plate capacitor is a at halfway between the plates why will the particle experience the same acceleration when its 1 quarter of the way?
The acceleration of a charged particle between plates in a plate capacitor is constant due to the uniform electric field between the plates. Since the field strength remains the same between the plates, the particle will experience the same acceleration regardless of its position if it is perpendicular to the field lines.
When the distance from a charged particle decreases the strength of the electric field does what?
As the distance from a charged particle increases the strength of its electric field DECREASES.
The strength of the electric field of a charged particle becomes greater as the distance from the particle increases.?
No, the strength of the electric field of a charged particle becomes weaker as the distance from the particle increases. The electric field strength follows an inverse square law relationship with distance, meaning it decreases as the distance from the charged particle increases.
The strength of the electric field of a charged particle becomes greater as the distance from the particle decreases?
Yes, the strength of the electric field of a charged particle does increase as you move closer to the charged particle. This is because electric fields follow an inverse square law, meaning that the field strength is inversely proportional to the square of the distance from the charged particle. As you move closer, the distance decreases, leading to an increase in the electric field strength.
Is it true the strength of the electric field of a charged particle becomes greater as the distance from the particles increases?
I really doubt it. If it were, then the strength of the electric field from a charged particle on the far side of the Andromeda Galaxy would be totally unbearable, and it would be completely impossible to stick a charged balloon to the wall in my house.
Does the strength of a electric field of a charged particles become greater as the distances from the particle decreases?
Yes, the strength of an electric field from a charged particle is stronger closer to the particle and weaker as you move further away. The electric field decreases with distance according to the inverse square law, which means it decreases as the square of the distance from the charged particle.
If the acceleration of a charged particle between plates in a plate capacitor is a at halfway between the plates why will the particle experience the same acceleration when its 1 quarter of the way?
The acceleration of a charged particle between plates in a plate capacitor is constant due to the uniform electric field between the plates. Since the field strength remains the same between the plates, the particle will experience the same acceleration regardless of its position if it is perpendicular to the field lines.
When the distance from a charged particle decreases the strength of the electric field true or false?
True. The strength of the electric field created by a charged particle is inversely proportional to the square of the distance from the particle. As the distance decreases, the electric field strength increases.
What is the formula for the work done by an electric field on a charged particle?
The formula for the work done by an electric field on a charged particle is given by W qEd, where W represents the work done, q is the charge of the particle, E is the electric field strength, and d is the distance the particle moves in the field.
An electric field can deflect?
charged particles, causing them to change direction or accelerate. This deflection is a result of the interaction between the electric field and the charged particles' electric charge. The strength and direction of the deflection depend on the properties of the electric field and the charged particle.
What does electric field occur?
An electric field occurs when there is a force acting on a charged particle in the space surrounding another charged object. This force causes the charged particle to experience a push or pull depending on the direction of the field. The strength and direction of the electric field depend on the magnitude and sign of the charges creating it.
What is the work done by an electric field on a charged particle as it moves through a given distance?
The work done by an electric field on a charged particle as it moves through a given distance is equal to the product of the electric field strength, the charge of the particle, and the distance it moves in the direction of the field. This work done is measured in joules.
In which case does an electric field do positive work on a charged particle?
An electric field does positive work on a charged particle when the direction of the electric field is the same as the direction of the particle's movement.
