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The potential difference. The electrons flows from a lower potential to a higher potential. The electric current flows in the opposite direction. The electric field's direction is always from a higher potential to a lower potential. Its kind of like a waterfall. The water always falls down not up. It goes from a higher potential to a lower potential.
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Why does the direction of polarization of light compare with the direction of vibration of the electrons that produced it?
The direction of polarization of light is related to the direction of vibration of the electrons that produced it because the oscillation of the electrons creates an oscillating electric field perpendicular to the direction of propagation of light. This electric field determines the orientation of the light wave's vibration, resulting in its polarization direction.
What direction does a a positive charge point?
A positive charge points in the direction of the electric field it creates or is placed in. By convention, electric field lines start from positive charges and point toward negative charges. Therefore, if you have a positive charge, the electric field lines will emanate outward from it. In summary, a positive charge points away from itself in the direction of the electric field.
Why Do transverse magnetic mode has no magnetic line is in direction of propagation?
No. It has. Since transverse electric mode has it's wave propagating in the Z direction, and has magnetic field existing in the same direction with NO electric field... Likewise, transverse magnetic mode has it's wave propagating in the Z direction and has electric field existing in the same direction with NO magnetic field.
An electric dipole placed with its axis inclined at an angle to the direction of a uniform electric field experiences?
It experiences a torque but no force. As the dipole is placed at an angle to the direction of a uniform electric field it experiences two opposite and equal forces which are not along the same line. This develops a torque which aligns the dipole along the field. The dipole does not experience any force as the two forces cancel each other.
Why photon show both electric and magnatic field?
Protons are positively charged that's why they show electric field while magnetic field develops when electric field is in either direction so protons develops magnetic fields also.
What is the relationship between the direction of the e0 electric field and the movement of charged particles in a given system?
The direction of the electric field (E) determines the direction in which charged particles will move in a given system. Charged particles will move in the direction of the electric field if they are positive, and opposite to the direction of the electric field if they are negative.
What determines the direction of the electric field in a given region?
The direction of the electric field in a given region is determined by the direction in which a positive test charge would move if placed in that region.
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.
The direction of the electric field vector is defined as?
Direction of the electric field vector is the direction of the force experienced by a charged particle in an external electric field.
What is the direction of the induced electric field?
The direction of the induced electric field is perpendicular to the change in magnetic field.
How can one determine the direction of the electric field?
To determine the direction of the electric field, you can use a positive test charge. The direction of the electric field is the direction in which a positive test charge would move if placed in that field.
Does an electric field have strength but no direction?
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.
What determines the number originating from a charge when an electric line is drawn?
The number that originates from a charge when an electric field line is drawn represents the magnitude of the charge creating the field. The field lines help us visualize the direction of the electric field and the relative strength of the field at different points around the charge. The closer the field lines are together, the stronger the electric field.
Why does the direction of polarization of light compare with the direction of vibration of the electrons that produced it?
The direction of polarization of light is related to the direction of vibration of the electrons that produced it because the oscillation of the electrons creates an oscillating electric field perpendicular to the direction of propagation of light. This electric field determines the orientation of the light wave's vibration, resulting in its polarization direction.
How is the direction of an electric field indicate with electrical fields lines?
The direction of an electric field is indicated by the direction in which the electric field lines point. Electric field lines point away from positive charges and towards negative charges. The closer the field lines are together, the stronger the electric field in that region.
What is the direction of the electric field is opposite to that of the force if the charge?
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.
Is the direction of the electric force on a charge is tangent to the field line?
No, the direction of the electric force on a charge is along the electric field vector and not necessarily tangent to the field line. The force on a charge will be in the same direction as the electric field if the charge is positive, and opposite if the charge is negative.
