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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.
What is the relationship between the direction of an electric field and the direction of the force exerted on a charged particle?
The direction of the force exerted on a charged particle is determined by the direction of the electric field. The force acts in the same direction as the electric field if the particle is positively charged, and in the opposite direction if the particle is negatively charged.
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.
What is the direction of the electric field around a charged particle?
The electric field around a charged particle points away from positive charges and towards negative charges.
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.
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.
What is the relationship between the direction of an electric field and the direction of the force exerted on a charged particle?
The direction of the force exerted on a charged particle is determined by the direction of the electric field. The force acts in the same direction as the electric field if the particle is positively charged, and in the opposite direction if the particle is negatively charged.
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.
What is the direction of the electric field around a charged particle?
The electric field around a charged particle points away from positive charges and towards negative charges.
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.
What is the electric field around a charged particle like?
The electric field pattern is radial.
What is the electric field of a finite cylinder?
The electric field of a finite cylinder is the force per unit charge experienced by a charged particle at any point outside the cylinder. It is calculated using the formula for the electric field of a charged line of charge density.
What is the behavior of a positively charged particle when it is released in an electric field?
When a positively charged particle is released in an electric field, it will experience a force in the direction opposite to the field lines. This force will cause the particle to accelerate in the opposite direction of the field.
What is the area around an electric charge which is strongest closest to the charged particle?
It's the electric field.
How do you determine work done by electric field?
The work done by an electric field on a charged particle can be calculated using the formula: Work = charge of the particle x electric field strength x distance moved. The work is positive if the electric field and the displacement are in the same direction, and negative if they are in opposite directions.
What is the accelerating voltage formula used to calculate the energy of charged particles in an electric field?
The accelerating voltage formula used to calculate the energy of charged particles in an electric field is E qV, where E is the energy, q is the charge of the particle, and V is the voltage.
