Three charges ` 0.1` coulomb each are placed on the corners of an equilateral triangle of side `1 m`. If the energy is supplied to this system at the rate of ` 1 kW` how much time would be required to move one ot the charges on to the midpoint of the line joining ther two ?

Three charges 0.1 coulomb each are placed on the corners of an equilateral triangle of side 1 m . If the energy is supplied to this system at the rate of 1 kW how much time would be required to move one to the charges on to the midpoint of the line joining the two ?

Three charges of +0.1 C each are placed at the vertices of an equilateral triangle of each side 1m. If the energy is supplied at the rate of 1.0 kw, how many hours would be required to move one of the charges on to the mid point of the line joining the other two? Given =1/(4piepsilon_0) = 9xx 10^9 N ^2C^-2

Three charges each 20muC are placed at the corners of an equilateral triangle of side 0.4m The potential energy of the system is

Three point charges 3nC, 6nC and 6nC are placed at the corners of an equilateral triangle of side 0.1 m. The potential energy of the system is

Three point charges 3nC, 6nC and 9nC are placed at the corners of an equilateral triangle of side 0.1m. The potential energy of the system is:

Three point charges of 2 mC each are kept at the vertices of an equilateral triangle of side 50 cm . If the system is supplied energy at the rate 2 kW, the time taken to move one of the charges to the mid point of the line joining the other two charge is

Three point charges 3 nC , 6 nC and 9 nC are placed at the corners of an equilateral triangle of side 0.1 m . The potential energy of the system is

At the corners of an equilateral tringle of side a =1 m, three point charge are placed (each of 0.1 C). If this system is supplied energy at the rate of 1 kW, then calculate the time required to move one of charges to the mid-point of the line joining the other two.

Three point charges each equal to q are placed on the vertices of an equilateral triangle of side l. The potential energy of the system is