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It has plenty of direction. The direction of the electric field at any point in

it is the direction of the force that would be felt by an infinitesimally small

positive charge placed at that point.

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What is the trajectory of a charge in an electric field?

The trajectory of a charge in an electric field is determined by the direction and strength of the electric field. The charge will experience a force in the direction of the electric field, causing it to move along a path determined by the field's characteristics.


What is the strength and direction of the electric field between positive and negative charges?

The strength of the electric field between positive and negative charges is determined by the magnitude of the charges and the distance between them. The direction of the electric field is from the positive charge to the negative charge.


What is the velocity experienced by an electron in an electric field?

The velocity experienced by an electron in an electric field depends on the strength of the field and the mass of the electron. The velocity will increase as the electric field strength increases. The electron will accelerate in the direction of the electric field.


What is the strength of an electric field determined by?

The strength of an electric field is determined by the magnitude of the charges creating the field and the distance between the charges. It is mathematically defined as the force per unit charge at a given point in the field. The direction of the electric field is defined as the direction a positive test charge would move if placed in the field.


Electric field lines show the strength and what of an electric field?

Direction and electric flux density. Representing an electric field (and this works with other fields also) with lines is a sophisticated and time honored tradition. The density of lines in any region of space is proportional to the strength (magnitude) of the field in that region of space. The direction of the field is along the direction of the line at each position on each of the lines. In such a graphical representation the field direction goes out from positive charge and in towards negative charge and the visualization usually has some indication of the sign of charge or direction of the field to give the information about direction of the vector field represented by the field lines.

Related Questions

What is the trajectory of a charge in an electric field?

The trajectory of a charge in an electric field is determined by the direction and strength of the electric field. The charge will experience a force in the direction of the electric field, causing it to move along a path determined by the field's characteristics.


What is the strength and direction of the electric field between positive and negative charges?

The strength of the electric field between positive and negative charges is determined by the magnitude of the charges and the distance between them. The direction of the electric field is from the positive charge to the negative charge.


What is the velocity experienced by an electron in an electric field?

The velocity experienced by an electron in an electric field depends on the strength of the field and the mass of the electron. The velocity will increase as the electric field strength increases. The electron will accelerate in the direction of the electric field.


What is the strength of an electric field determined by?

The strength of an electric field is determined by the magnitude of the charges creating the field and the distance between the charges. It is mathematically defined as the force per unit charge at a given point in the field. The direction of the electric field is defined as the direction a positive test charge would move if placed in the field.


Electric field lines show the strength and what of an electric field?

Direction and electric flux density. Representing an electric field (and this works with other fields also) with lines is a sophisticated and time honored tradition. The density of lines in any region of space is proportional to the strength (magnitude) of the field in that region of space. The direction of the field is along the direction of the line at each position on each of the lines. In such a graphical representation the field direction goes out from positive charge and in towards negative charge and the visualization usually has some indication of the sign of charge or direction of the field to give the information about direction of the vector field represented by the field lines.


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 a positive mean for electric field strength?

A positive electric field strength indicates that the field is directed away from a positive charge or towards a negative charge. It signifies the direction in which a positive test charge would move if placed in the electric field.


What are the different dimensions of the electric field and how do they affect the behavior of charged particles in a given space?

The electric field has two main dimensions: magnitude and direction. The magnitude determines the strength of the field, while the direction indicates the path a charged particle will follow when placed in the field. Charged particles will experience a force when placed in an electric field, causing them to move in a specific direction based on the field's orientation. The behavior of charged particles in a given space is influenced by the strength and direction of the electric field present.


How closely packed the electric field lines are indicates the strength of the electric field?

true


Motion of charge particle in an electric field?

When a charged particle is placed in an electric field, it experiences a force due to the field. This force causes the particle to accelerate in the direction of the field if the charge is positive, or in the opposite direction if the charge is negative. The motion of the particle will depend on its initial velocity and the strength and direction of the electric field.


Why we use the positive test charge for determining the electric field?

A positive test charge is used to determine the electric field because its direction of motion will be the same as the direction of the electric field. This allows us to measure the electric force experienced by the test charge and therefore calculate the electric field strength at that point.


Why electric line of force can not have sudden break?

Electric field lines represent the continuous flow of electric field from one point to another. If there were a sudden break in the electric field line, it would imply a sudden discontinuity in the electric field strength, which is not physically possible. This is because electric field lines are a visual representation of the direction and strength of the electric field, which must be continuous to maintain the conservation of electric field flux.