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What is the relationship between voltage (e), electric potential difference (v), and distance (d) in an electric field?
In an electric field, the relationship between voltage (e), electric potential difference (v), and distance (d) is described by the equation v e d. This means that the electric potential difference (v) between two points in an electric field is equal to the product of the electric field strength (e) and the distance (d) between the points.
What is the relationship between the electric potential and electric field according to the equations V kq/r and E kq/r2?
The relationship between electric potential (V) and electric field (E) is that the electric field is the negative gradient of the electric potential. This means that the electric field is the rate of change of the electric potential with respect to distance. The equations V kq/r and E kq/r2 show that the electric field is inversely proportional to the square of the distance from the charge, while the electric potential is inversely proportional to the distance from the charge.
What is the relationship between the electric potential energy of a system and another physical quantity?
The electric potential energy of a system is directly related to the charge and the distance between the charges in the system. As the charges or the distance change, the electric potential energy of the system also changes accordingly.
What is the relationship between the electric field (E) and the rate of change of the electric potential (V) with respect to the distance (r), as described by the expression e dv dr?
The relationship between the electric field (E) and the rate of change of the electric potential (V) with respect to the distance (r) is described by the expression E -dV/dr.
What is the relationship between the electric field between two plates and the potential difference across them?
The electric field between two plates is directly proportional to the potential difference across them. This relationship is described by the equation E V/d, where E is the electric field, V is the potential difference, and d is the distance between the plates.
What is the relationship between voltage (e), electric potential difference (v), and distance (d) in an electric field?
In an electric field, the relationship between voltage (e), electric potential difference (v), and distance (d) is described by the equation v e d. This means that the electric potential difference (v) between two points in an electric field is equal to the product of the electric field strength (e) and the distance (d) between the points.
What is the relationship between the electric potential and electric field according to the equations V kq/r and E kq/r2?
The relationship between electric potential (V) and electric field (E) is that the electric field is the negative gradient of the electric potential. This means that the electric field is the rate of change of the electric potential with respect to distance. The equations V kq/r and E kq/r2 show that the electric field is inversely proportional to the square of the distance from the charge, while the electric potential is inversely proportional to the distance from the charge.
What is the relationship between the electric potential energy of a system and another physical quantity?
The electric potential energy of a system is directly related to the charge and the distance between the charges in the system. As the charges or the distance change, the electric potential energy of the system also changes accordingly.
What is the relationship between the electric field (E) and the rate of change of the electric potential (V) with respect to the distance (r), as described by the expression e dv dr?
The relationship between the electric field (E) and the rate of change of the electric potential (V) with respect to the distance (r) is described by the expression E -dV/dr.
What is the relationship between the electric field between two plates and the potential difference across them?
The electric field between two plates is directly proportional to the potential difference across them. This relationship is described by the equation E V/d, where E is the electric field, V is the potential difference, and d is the distance between the plates.
What is the relationship between electric potential and electric field in a given system?
In a given system, the electric potential is directly related to the electric field. The electric field is the rate of change of electric potential with respect to distance. In other words, the electric field points in the direction of decreasing potential.
What is the relationship between potential energy and electric potential?
The relationship between potential energy and electric potential is that electric potential is a measure of the potential energy per unit charge at a specific point in an electric field. In other words, electric potential is the potential energy that a unit charge would have at that point in the field.
What is the relationship between the speed of an electric charge and the electric potential it experiences?
The relationship between the speed of an electric charge and the electric potential it experiences is that the speed of the charge is directly proportional to the electric potential. This means that as the speed of the charge increases, the electric potential it experiences also increases.
What does the potential energy vs distance graph reveal about the relationship between potential energy and distance?
The potential energy vs distance graph shows that potential energy decreases as distance increases. This indicates an inverse relationship between potential energy and distance - as distance between objects increases, the potential energy between them decreases.
How does the electric potential energy between two positively charged particles change if the distance between them is reduced by a factor of 3?
The electric potential energy between two positively charged particles increases by a factor of 9 if the distance between them is reduced by a factor of 3. This relationship is based on the inverse square law, where potential energy is inversely proportional to the square of the distance between charged particles.
Relationship between electric field intensity and electric potential?
Electric field intensity is related to electric potential by the equation E = -dV/dx, where E is the electric field intensity, V is the electric potential, and x is the distance in the direction of the field. Essentially, the electric field points in the direction of decreasing potential, and the magnitude of the field is related to the rate at which the potential changes.
If the electric potential is zero, what is the relationship between the electric field and the potential at that point?
If the electric potential is zero, the electric field at that point is perpendicular to the equipotential surface.
