The electric potential at some point in space due to a point charge is 83 volts. If the charge is kept in the same place, what is the electric potential at a point which is 6 times further away compared to the first point? Answer in volts.
Electric potential depends inversely on the distance of observation point from the source charge hence if distance is made 6 times, potential will reduce by a factor of 1/6, so new potential is V = 83/6 = 13.83 Volts.
The electric potential at some point in space due to a point charge is 83 volts....
At a point in space, the magnitude of electric field due to a point charge is 30.0N/C. The electric potential @ same location is 3.0V (relative to a potential 0 to ∞). What is the charge?
The amount of the electric field produced by some point charge is 112.9 N/C at some distance from the charge. What is the amount of the electric field from the same point charge at a point three times further away in N/C?
The amount of the electric field produced by some point charge is 107.1 N/C at some distance from the charge. What is the amount of the electric field from the same point charge at a point three times further away in N/C?
To find the electric potential created by two charges at some point in space, you ... ... calculate the electric potential at that point due to each charge and add. ... calculate the electric potential at that point due to each charge, take the magnitude of each and then take their average. ... calculate the electric potential at that point due to each charge, take the magnitude of each and then add. ... calculate the electric potential at that...
The amount of the electric field produced by some point charge is 102.6 N/C at some distance from the charge. What is the amount of the electric field from the same point charge at a point three times further away in N/C? please show your work
Consider a point charge ?1 = +1.0 C sitting by itself in empty space. a. (1 point) What is the electric potential energy of the charge? b. (2 points) What is the potential at some point P that is 1.0 m away? c. (2 points) What is the electric field magnitude at P? d. (2 points) A second point charge, ?2 = +2.0 C, is brought from infinity and positioned at point P. What is the potential energy of this...
Calculate the electric potential at point P due to the point charge q=1.70 nC and the half-ring of charge (centered on P) with uniform density lambda=-10.6 nC/m. All dimensions are indicated in the figure. If you do not know how to calculate the field due to the half-ring, replace it by a point charge with the same total charge at end A of the ring.
1. At one point in space, the electric potential energy of a 15 nC charge is 30 μJ . What is the electric potential at this point? 2. Moving a charge from point A, where the potential is 300 V , to point B, where the potential is 180 V , takes 4.0×10−4 J of work. What is the value of the charge? 3. What is the voltage of a battery that will charge a 4.0 μF capacitor to ±...
V = 3. The potential in a region of space due to a charge distribution is given by the expression ax?z + bxy - cz? where a = -9.00 V/m3, b = 9.00 V/m², and c = 6.00 V/m2. What is the electric field vector at the point (0, -9.00, -8.00) m? Express your answer in vector form.
A single point charge sits alone in a region of space. The electric field due to the charge at a distance of 0.298 meters is 2.46e+3 N/C. Calculate the magnitude of the charge on the point charge.