Electric field lines go from positive charges to 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.
Positive electric fields point away from positive charges and towards negative charges, while negative electric fields point towards positive charges and away from negative charges. In both cases, the direction indicates the direction that a positive test charge would move if placed in that field.
positive
The direction of the electric field is opposite to that of the force if the charge is negative. This is because negative charges experience a force in the direction opposite to the electric field, while positive charges experience a force in the same direction as the electric field.
Similar charges, whether positive or negative, create an electric field around them. This electric field exerts a force on other charges within the field. Positive charges repel other positive charges due to the direction of the electric field, while negative charges repel other negative charges. However, positive and negative charges are attracted to each other because their electric fields pull them towards each other.
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.
Positive electric fields point away from positive charges and towards negative charges, while negative electric fields point towards positive charges and away from negative charges. In both cases, the direction indicates the direction that a positive test charge would move if placed in that field.
positive
The direction of the electric field is opposite to that of the force if the charge is negative. This is because negative charges experience a force in the direction opposite to the electric field, while positive charges experience a force in the same direction as the electric field.
Similar charges, whether positive or negative, create an electric field around them. This electric field exerts a force on other charges within the field. Positive charges repel other positive charges due to the direction of the electric field, while negative charges repel other negative charges. However, positive and negative charges are attracted to each other because their electric fields pull them towards each other.
The two types of electric charges are positive and negative. Positive charges repel each other, as do negative charges, while positive and negative charges attract each other.
Electric Field between positive and negative charges. If the Electric Field in which both the positive and negative charges are present is stronger than the Electric Field between the two charges we are talking about, the the negative charge will move away from the positive charge in that positive direction of the field. If not, then the negative charge will get attracted to the positive charge and stay at the position of the positive charge. It will be pulled toward the source of the electric field. (Novanet)
The electric field around a charged particle points away from positive charges and towards negative charges.
The two types of electric charge are positive and negative. Positive charges repel each other, as do negative charges, while opposite charges attract each other.
The statement that lines of electric force begin and end only on electric charges is based on the principle that electric field lines represent the direction in which a positive test charge would move when placed in the field. Since positive charges repel each other and negative charges attract positive charges, electric field lines naturally begin on positive charges (sources) and end on negative charges (sinks).
No electric charges may be positive or negative - electrons have a negative charge; ions have a positive charge.
In an electric field with multiple charges, the lines of force point away from positive charges and towards negative charges. The lines of force follow the direction of the electric field, which is a vector sum of the individual electric fields produced by each charge.